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Mikado V-BAR Mikado V-Stabi/V-BAR Flybarless System Software and Hardware Support |
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#1 (permalink) |
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Join Date: Oct 2009
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![]() Hey all,
This thread is in response to a few posts and requests for a sticky regarding Logo/V-Bar tail issues, but I'd like to emphasize that this is applicable to pretty much any heli or FBL system. For troubleshooting purposes and since this was originally motivated by questions in the Mikado Logo Helicopter forum, I'll stick with the stock Logo plastic tail assembly as the detailed example below, but if you have an aftermarket tail on your Logo or if you're reading this and have another heli entirely, you can apply it without a problem and should just look for the same issues, but on the specific component details for that heli design. Please feel free to post your feedback, experience with this or other methods, or suggestions for modifications or improvements. Thanks! ![]() It's of critical importance on any heli to make sure that your tail is behaving itself, as few things can more readily rob a pilot of confidence than a bad tail. The most common tail issue is a wag, which can manifest itself in may different forms. NOTE: Before performing any tail tuning on a new or troublesome helicopter, turn off your headspeed governor! The governor control loop can cause tail wags very similar to the issues discussed below if it is not tuned correctly. Once you get your tail tuned on a flat throttle curve, you can enable your governor and tune it knowing that you're not fighting your tail mechanics or the FBL system. The first thing that I tell everyone is to check the smoothness of your tail slider assembly. To be clear, this means your entire tail control assembly from the servo all the way to the blade grips. I've seen tons of people say it's smooth, but then when I feel it, it's chunky, rough, and just bad. This is not to say ANYTHING about you or your building skills, but a lot of Helifreaks suffer from not having perspective that is only gained from building a lot and flying around others. Trust me, I've built a TON of reallllyyyyy "smooth" tails... ![]() 1.Checking the Tail Slider Mechanics: First, pop the control rod link off the belcrank and move it over it's travel range. Is it less smooth at certain points along the shaft? Right rudder (slider towards the tail case) seems to be the most common portion of the travel to be rough. This is usually due to a combination of the smoothness of the plastic balls or other linking mechanism on the blade grips and the sizing of the pitch slider links. Right Rudder The plastic Logo grips come out of a mold and the mold lines run right through the center of the balls. Clean them up with some sand paper and give it another go. This is usually an iterative process and you should be mindful of not over-sanding the balls. Once they appear to lack any sign of mold lines, you should check the smoothness again, but you may still need to go over the actual plastic link arms with a ball link sizer. Anytime you're using a sizer, less is more...you cannot put plastic back if you screw up, so be patient and careful! ![]() Left Rudder If the binding occurs in the "left rudder" portion of the travel range, it's more often then not due to the plastic cup on the bellcrank that the pitch slider ball sits in. The height of the cup can sometimes be excessive, which causes it to rub on the underside of the pitch slider housing. Sand the cup from the top side slowly so as to not take too much material off and recheck. Full Travel Range If the binding/roughness occurs over the entire range of travel, then it's most likely your shaft/bushing interface. I like to use Mothers Aluminum/Magnesium polish with a micro-fiber cloth and polish the shaft a bit so that it's silky smooth. To do this, remove your main blades and get a nice microfiber cloth with some Mothers on it. Spin the head while holding pressure on the tail output shaft with the cloth. Give it a good 30 seconds of spinning and then find a clean portion of the cloth and repeat. The end result should be a super-polished output shaft. Clean it off with a bit of alcohol and then re-grease it with Tri-Flow and re-assemble. W.O.D. Check WARNING: Only attempt this if you are fully confident in your ability to control your helicopter in any situation! ![]() If you get spooked easily, are not confident in all orientations, or are not comfortable with controlling the helicopter during full-speed pirouettes, then DO NOT attempt this! A good check for whether binding is the issue is to get your heli in a hover at an altitude that you're comfortable with and do a few full-throw piros with hard stops ("dropping the stick") in each direction. If the heli enters the dreaded Wag of Death (W.O.D. is characterized by a mild-to-wild 15 to 90-degree tail wag that comes on upon stopping the piro and makes a loud, angry buzzing), then remain calm and simply give rudder input in the opposite direction and it should stop. Now you know you've got a binding issue... 2. V-Bar Tail Tuning: If you believe that you've exonerated all of your potential mechanical causes, then move on to the V-Bar. Are you running stock settings? In other words, check that your P-Gain = 80, I-Gain = 60, Common Gain = ~90 (Common Gain will vary with heli size and type, but for Logos, I usually start at 90 to 100). Note that P and I gains are found in the advanced menu while Common Gain is the slider on the front panel. How does the tail behave with stock settings? Does it overgain (hard wag with buzzing...i.e. the tail sounds pissed) in hard maneuvers like backwards inverted tail slides, funnels, or hurricanes? If so, start off by dropping your common gain a few points at a time while repeating the maneuvers. If you're not able to do any of the above moves yet, then try flying in fast forward or fast backward flight. If it doesn't get aggravated with that, then throw some hard turns into your routine. My rule of thumb is to find the gain value where you can JUST BARELY hear the tail get angry in a hard funnel and then back it off by 2 or 3 points. Find the right common gain value and once you're confident that the tail will hold and not overgain, then move on to the next step... Fast Wags Too high of a P-Gain can cause what most would consider to be a "fast" (>2-3Hz), but small amplitude (a few degrees) tail wag. I like to decrease it by 5 points from 80 until I get down to around 60. If it doesn't change the behavior at all, then I would automatically assume that I've missed something mechanically...Go back to #1 and try again. If a lower P-Gain does fix it, then re-run the common gain optimization as described in the above paragraph and you should be set. Slow/Medium Wags Too high of an I-Gain can cause what most would consider to be a "slow" (1Hz or less), but small-to-moderate amplitude tail wag because, as you may recall, I-gain represents the heading-hold portion of the tail control loop and when it is too high, it results in an overshoot-reaction to sudden changes. As in the case of P-Gain, decrease the value from 60 by 5 points each time until you get to 40. If you do change your I-gain, be aware that you may need to adjust your precomps as well. I-gain and precomps are inversely proportional in effect. In other words, if you lower your I-gain (reduce the amount of overshoot you allow), then you need more precomp to get the same effect. Conversely, if you increase you I-gain, you may need to lower your precomp. If you've gotten rid of the wag and checked the precomp, then simply re-run the common gain optimization and fly! If it still exists, then check your mechanical setup again, but this time if the tail linkage mechanics pass the test from #1 above, then move to on to the next step. 3. Advanced Mechanical Checkouts: On the tail, check the tail output shaft and tail rotor hub...are they bent? It only takes a little bit to aggravate things when the tail is spinning at several thousand RPM. Is there any excessive play in the tail grips either in the radial (along the rotor hub shaft) or axial (along the tail output shaft) directions? Disassemble the tail rotor and make sure that you've installed the radial and thrust bearings and their associated spacers correctly. If you have radial play, then you may need to resize one of both of the rotor hub shafts.See if you can match the grips to the correct shaft by finding the combination that gives you the least radial play. If you still have some play, you can VERY LIGHTLY and PATIENTLY sand the end of the rotor hub shaft that is longer than necessary until, when matched with the appropriate grip, you have a nice snug feel. Do not overtighten the screws, as they're too small to handle you kung-fu death grip. ![]() Next move on to the main rotor head and drivetrain. Worn dampers, bent shafts, bad bearings, an out-of-round maingear, over-tight gear mesh and other similar issues can manifest themselves as tail wags on FBL systems, so be thorough. Of all the FBL helis I've seen with these issues, I think I've only ever seen one of them with a head issue that was causing a tail wag and it was due to a slightly bent mainshaft. By "slightly" I mean that the shaft had approximately .001" runout...it doesn't take much. ![]() Once you're satisfied that your advanced mechanics are in order, go back to #2 and tune your tail as described above. At this point, you should have a heli with a rock-solid tail and minimal if any tail wags. Keep in mind that nothing is perfect, so don't kill yourself trying to get that last millimeter of wag out of your machine. I've flown helis before with extremely slight tail wags in a hover that hold like a rock and fly wonderfully! Depending on the FBL system, it's actually not as uncommon as you might think to see a very mild wag in a hover. It's when the wag starts affecting your tail control and confidence in flight that you need to take notice and fix it. Good luck! ![]() Cheers, -->J Last edited by Justin Pucci; 04-29-2011 at 04:14 AM.. Reason: Updated some descriptions to include more information. |
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#3 (permalink) |
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Join Date: Jan 2007
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![]() Dude... Priceless article... Thanks!!!! Dropping my I-gain tomorrow!!!
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1 - Diabolo 1 stuffed with, well, see below 2 - Diabolo 2 stuffed with testosterone, jittery sweat, and rippling flanks |
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#4 (permalink) |
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![]() ![]() ![]() Thanks.
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Henseleit TDR; Synergy E7; Hirobo EMBLA. Fabio ![]() |
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#5 (permalink) |
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Join Date: Dec 2009
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![]() STICKY STICKY STICKY!!
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yardbirdhelicopters.com #yardbirdheli |
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#6 (permalink) |
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Join Date: Feb 2007
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![]() Thank you, Justin!
A believe almost everyone faced that problem somedays...I did. Should thread become a STICKY? |
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#7 (permalink) |
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Join Date: Dec 2010
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![]() New to FBL and loving this article, plus I have an older FB unit that I'm going to pull out and check.
Great read... ![]() |
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#8 (permalink) |
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Join Date: Feb 2008
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![]() Very nice info!!!!
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MSH Prôtos CF FBL Stretch E-flite HABU 32, Parkzone HABU 2 Ikarus F3A Multiplex Parkmaster 3D |
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#9 (permalink) |
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Thread Starter
![]() Join Date: Oct 2009
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![]() Thank you all for your very kind comments!
![]() I'm glad that you guys are finding this to be a useful sticky. I'd love to hear your experiences with how the guide has helped you out! What did you find to be the root cause of your tail issue? Please feel free to post any other feedback you may have. Thanks again! ![]() |
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#10 (permalink) |
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![]() I read this article and lowered just my P gain to get rid of fast wag in FFF. But I still have a little fast wagging during fast inverted climbouts. Do I raise my A-gain? During normal fast climbouts, I don't see this short burst of wagging.
I'm using a Jive ESC.
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MSH Protos * 2, SAB 630, Logo 550SX |
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#11 (permalink) | |
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Thread Starter
![]() Join Date: Oct 2009
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![]() Quote:
Are you sure you have no mechanical binding? Perhaps in the extremes of your travel range? ![]() If you're sure, then did you optimize your common gain per the above method via FFF/FBF or funnels before messing with other stuff? If not, then reset your P- and I-gains to 80 and 60, optimize, and then see if common gain affects the tail wag. If it has no effect over a large portion of the range, then check for binding again. The slightest bit can get you... If you've optimized your common gain, you have no mechanical binding, AND if your wag in FFF went away by reducing P-gain, then I would suggest increasing your I-gain to combat the wag in punch-outs. Remember that I-gain represents the heading-hold portion of the tail control loop, so increasing it allows the tail to hold more aggressively against sudden load changes. If you do change your I-gain though, be aware that you may need to adjust your precomps as well. I-gain and precomps are inversely proportional in effect. In other words, if you lower your I-gain (reduce the amount of overshoot you allow), then you need more precomp to get the same effect. Conversely, if you increase you I-gain, you may need to lower your precomp. Once you get this far, do a quick recheck of your common gain value and then you should be ready to go! Good luck and let me know what you find! ![]() Cheers, -->J Last edited by Justin Pucci; 04-30-2011 at 12:59 PM.. Reason: Corrected the I-gain change advice |
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#12 (permalink) |
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Thread Starter
![]() Join Date: Oct 2009
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![]() Guys,
After a great bit of conversation with Frederik aka MrMel, I've revised my previous comment in post #11 about reducing I-gain to eliminate wag in a punch-out. Note now that post #11 has been edited to state that you should increase I-gain instead. This is due to the fact that an increase in I-gain should, in fact, have the effect of holding the tail more aggressively against the sudden torque change seen in a punch-out or similarly hard maneuver and it is unlikely that in the V5 firmware an excessively high I-gain would cause this behavior unless you're precomp is too high. I will prepare a more detailed discussion and add it into the original post so that people aren't confused. Sorry for the mix-up and thanks to Frederik for the help! ![]() Cheers, -->J |
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#13 (permalink) |
Registered Users
Join Date: Jan 2007
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![]() Ok... Tough one.
When we are talking about phasing... Will adjustments in the software tweak out slight misalignments of the sensor as well as the head, or just compensate for head phasing issues? Cheers
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1 - Diabolo 1 stuffed with, well, see below 2 - Diabolo 2 stuffed with testosterone, jittery sweat, and rippling flanks |
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#14 (permalink) | |
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Join Date: Apr 2005
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![]() Quote:
Both is quite bad, as the system get's an elevator input for sample, and heli moves both aileron and elevator... On top of that the Piro compensation get's off track. Sensor should be mounted PERFECT, Phasing should be PERFECT, else the system fights itself. |
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#15 (permalink) | |
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Join Date: Jan 2007
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![]() Quote:
Thanks.
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1 - Diabolo 1 stuffed with, well, see below 2 - Diabolo 2 stuffed with testosterone, jittery sweat, and rippling flanks |
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#16 (permalink) |
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Join Date: Apr 2005
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![]() Software part of phasing adjustment's are really for when you cannot change it on the heli, or you have a scale heli with a multibladed head where you need offset.
it's really down to; the better mechanical setup you have the better it will fly, VBar is forgiving and masking lot's of stuff if you get it wrong, but in the end, it will always fly better with a perfect mechanical setup, all FBL solutions will. |
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#17 (permalink) |
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Join Date: Jan 2007
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![]() I just had to re-install my miniV I just put into a rebuild (moved from full-size to mini... like it clean
![]() Man it was a pain to get the glue off the shelf and vBar. Straight now. When I initially installed it I forgot that the vertical to 45 degree piece on the top back of the frames in inset further than the rest of the molding... had about 3 degrees of clockwise rotation. All fixed up now!
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1 - Diabolo 1 stuffed with, well, see below 2 - Diabolo 2 stuffed with testosterone, jittery sweat, and rippling flanks |
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#18 (permalink) |
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![]() The Mini Vbar case is not perfectly rectangular. It gets more narrow towards the connector end. So it makes lining up a little difficult.
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MSH Protos * 2, SAB 630, Logo 550SX |
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#19 (permalink) | |
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Thread Starter
![]() Join Date: Oct 2009
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![]() Quote:
Glad that you figured it out! ![]() Cheers, -->J |
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#20 (permalink) | ||
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Join Date: Jan 2007
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![]() Quote:
A put a ruler against e back if the vBar too and it's perpendicular to the longitudinal axis, Quote:
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