Tag Archives: Radio Control

Helicopters, Radio Control

Blade CX3 nearly meets it’s demise – out of action

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Yesterday evening, was a great evening to fly. Not much wind, very very light rain and nobody at the ‘fly zone’ to accidentally kill. When you are unleashing an 8 year old piloting a P-51 Mustang model, these are things you need to consider. To be honest, he’s better at flying it than I am.

While the P-51 was zooming around the park, sometimes slamming into the ground nose first at full throttle (foamy planes are really good trainers) I took up the two Helis for some practice.

First up was the MadHawk300. The CX3 and Foamy P-51 are both bound to the same transmitter, so I could not fly the CX3 while the transmitter was in use. I’d done some tuning on it, adjusting the motor. The last failed flight attempt was dashed when on run-up the main pinion began to slip at 1/2 throttle, keeping the heli from getting off the ground. I’ve since lock-tited those motor motor screws.

It few well. Adjustments I made to the swash gave me some really nice control. At higher speed and throttle, helicopter flight dynamics are not at all intutive to a guy that’s used to fixed-wing models. But it still went well, with a couple of hard landings, no big deal.

Then, it happened. While at the east end of the part, close to one of the Pavilion buildings, the tail suddenly started to swing wildly, it accelerated upward, then nosed rolled right and slamed into the pavement at near full throttle, doing quite a number of the landing gear and main rotor blades.

Madhawk 300 with broken landing skid.

🙁 Nothing that was too tough to repair, but I didn’t have the wrench to replace the rotors on site.
Toasted main rotor blade on the Madhawk 300.

At this point the battery on the P-51 was running low. I recouped the transmitter and started to fly the CX3. It was flying very nicely. Nicer than the Madhawk in fact! Zoomed round the park, turned on and off the model navigation lights, did some high speed passes, landings, just some fun landing.

Then, it happened.

Right in the same place the MadHawk had trouble, the CX3 started to go crazy, and started to go into the TBE death spin. I tried to regain control but no luck. It accellerated upward, then nosed over and went straight down, nose first into the ground at full throttle. 15′ was more than enough room for it to gain some momentum.

CRUNCH. It was not a nice scene. The following photos are after I attempted a field repair on the fusalage to fly again. Unfortunately it would not happen since the radio and transceiver were no longer talking to each other.

Once home, I tore down the heli (I’m getting far too good at this) and discovered that the radio receiver took the full-force of the crash. Part of it’s case was ripped off and one of the dipole antennas was missing. Oh oh!

Helicopter on the operating table. Trying to get TX and RX to talk to each other

Removed the plugs from the Spektrum AR6100e receiver in the heli, plugged in the 3-in-1 mixer, checked response. The mixer would not show it’s green ‘lock’ signal. It was not until later that I noticed that the signal lock LED on the AR6100e’s front was actually missing. But it was at that point I realized, that not only was the body smashed, the lower section of the frame mounts for the battery are broken, but the receiver is, completely, shot. I’ve broken at lot of things crashing R/C aircraft, but never destroyed a receiver. It’s at this point I’m thankful for using Spektrum R/C equipment. Replacements are 1/2 that of Futaba or JR radios. Still, it’s a $55 part. Ugh. 🙁

Close up of AR6100e broken receiver (unmounted) and 3-function mixer (mounted)

I don’t want to order a replacement receiver unless I *know* that’s what is broken. So I dug up the AR56200 full-range receiver I have, wired it in to the heli’s remains, and tested. Viola. 3-in-1 mixer lock and receiver lock. It’s a go. Now I just need to decided where, and when, to buy a new receiver. In the mean time, she’s out of commission.

At least I still have the MadHawk300 to fly. And if I crash that into pieces, well.. I’ll just say I have a contingency plan arriving for that soon as well. ):

What's next!?!

Helicopters, Radio Control

Digging this MD500E Scale Helicopte vid

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Found this on the XHeli.com Facebook page. Love the sound of these things.

I’m anxiously awaiting the arrival of my EXI-450 from XHeli.com, hopefully in the next week! Then I’ll have to build it. Then learn to fly it. Then learn how to repair it after I crash. Eventually I want to add a body kit like this, and replace the stock plastic parts (ordered plastic on purpose, about 1/2 cost and I plan to replace it as noted) with one of these:

HAC 4 blade Rotorhead for 450 class Heli

Radio Control, Technology

R/C micro Li-Po batter charger testing

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It’s come to my attention, that the little battery chargers that came with the various helicopters, might not be working up to par. Taking longer than I want to charge is one thing, but not charging properly is another entirely! A recent visit to the hobby shops indicated that it’s common for them to fail. But, they should be easy enough to test to see if they are applying a full charge by the simple use of a multi-meter.

Thus, I dug up my trusty Fluke (it must be over 25 years old now), put in a new 9v battery and started some testing.

All batteries here are Lithium-Polymer (Li-Po) 2-cell 7.4v batteries. 2 of the batteries tested are for the Blade CX3, the other for the Madhawk 300. Here is a link to the chart I created to document the batteries I’ve used.

  E-Flite Battery Charger ExceedRD Battery Charger
Exceed-RC 7.4v 1000mAh 8.4v     8.4v    
Tenergy 7.4v 900mAh 8.43v     8.43v 8.43v  
E-Flite 7.4v 800mAh 8.43v 8.38v   8.43v 8.43v  
Hyperian VGX3 #1 8.43v          
Hyperian VGX3 #2       8.43v 8.43v 8.44v

Results

Testing so far indicates that the chargers, although slow, are doing the job. One battery, the E-Flite 800mAh seemed a little down on power during the 2nd cycle of the test. It might already be suffering some degradation of performance. If that’s the case, it’s pretty pathetic. I plan to run each through at least 3 charge cycles to get a decent dataset.

Helicopters, Radio Control

Good times, bad times, upgrading and crashing the CX3…

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Good times. The Blade CX3 is one heck of a fun bird to fly.

The first update today was to add the factory heat sink for the main motors.

E-Flite CX3 heat sink

After removing one of the motors, installing the sink was pretty simple.

Heat sink install 1/2 complete

Motor re-installed and bolted back into position:

Motor re-installed.

The fame looks a little naked without the body installed. But it does not take long to put it back together, and ready for flight.

E-flite CX3 with body removed.

A little time lapse video of re-assembly:

Ready to enjoy some indoor heli flying fun.

Completed bird, and Spektrum DX6i flight controller

Well, it was, until the plastic factory swash plate decided to separate. I’d been fighting with adjusting the swash links most of the evening, after putting the heli back together again. I thought that maybe I’d bent a servo link rod during the heat sink install, so I worked on adjusting the cyclic/swashplate links.

Trying to stop a hard forward and starboard liftoff, and full rear cyclic would barely have any effect. It was not until an hour or so later I noticed that the plate where the servos attach was separating from the bearing and main rotor shaft. Duh. This explains why 2 directions worked great (pushing up on the plate) but the opposites failed (pulling down on the plate, but the upper bearing remained in position, thus no control. No control, but one check of an exciting crash!

The official term for this is TBE (toilet-bowl effect). Not fun. There is quite a discussion of the problem HERE. Once I discovered the problem, it was a matter of deciding how to solve it. There are a couple of solutions.

First of which is a pretty inexpensive factory replacement part.

Stock replacement swash plate.

Second is one of the CNC or cast metal solutions from E-Flite (the original manufacture) or other sources. Research indicates that the E-Flite is the one to buy.

E-Flight aluminum replacement swash plate.

Fortunately, there are plenty of other heils in the shop ready to fly.

Blade CX3 (left), Exceed-RC Madhawk 300 (right)

Helicopters, Radio Control

Maximum Geek-out. R/C + iMovie = ???

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It was bound to happen, taking the next step and actually taking 2 minutes to edit my little ‘movies’ (really a personal video diary of my learning to fly and crash little flying machines). Here are the first two that I actually was able to load into iMovie and convert.

First is the Revel Proto CX. My micro counter-rotating blade heli: I cut a bunch of worthless time (more worthless that this video, hard to image but true) out of the middle and focused on the ‘good stuff’:

Next is video of the bird #2, the Blade CX3.

EFlite Blade CX3 - MD520 Notar

I had just unpacked it, installed the training gear extensions (the funny orange balls) and bound it to the Spectrum radio that came in the ParkFlyer HobbyZone P-51 foamy. That was a nice little treat.

Blade CX3 - MD520 Notar

For the most part it worked great. Here 90% condensation of about 25 minutes of actual flight time with the CX3. This was my first attempt.

However, yet again, I managed to mangle the landing gear after a few panic throttle chops as it got a little close to big steel things that would break it. :/ Back to the hobby shop for MORE stuff!

Blade CX3 replacement landing gear. I left them 1 on the rack. At least they are not TOO expensive!

And finally, here is my repair video. First semi-successful attempt at time-lapse with the Canon S1100 micro-camera. The hardest part, I thought, would be learning how to do this with iMovie ’09. Nope, after some prodding around it turned out to be pretty simple. Sadly the camera was doing some sort of zoom-in and zoom-out madness. Site down before watching, you might get ill. Some are going to wonder about the music. Did I shot the video with this music in mind. NOT! Who’d try to shoot video like this, outside the brain-dead corridors of intellectual bankruptcy one finds in L.A. or N.Y.? No, but the frantic into to a good German industrial metal song just… WORKED! I only hope YouTube does not over-dub the music with something totally lame out of their music library, as I’ve heard they have started to do this.

UPDATE!

YouTube send me this message today. Hopefully they don’t over-dub the music. But, when you’re using a free service, their hardware, their network, it’s not a stretch to concede they own that copy of it.:

Your video, Eflite Blade CX3 MD520N (Notar), may have content that is owned or licensed by UMG.

No action is required on your part; however, if you are interested in learning how this affects your video, please visit the Content ID Matches section of your account for more information.

Helicopters, Radio Control

Fleet is expanding (heli 3 and heli 4)

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It’s beyond obsession at this point. I’m going to need a 12-step program.

Yesterday I converted some old ‘iron’ at the gun shop to one of these at the hobby shop (I don’t have a need for a piddly 9mm anyway). This is Heli #3:

Blade CX3

As I type, the batteries are charging for the Heli, and the transmitter.
Blade CX3 battery packs and DX6i transmitter charging up.

I saved $35 by buying the BNF (Bind-n-Fly) version of the kit. The Spektrum DX6i I already obtained is compatible with this (and the P-51 too as a matter of fact).

Then this morning, I received shipping confirmation of ‘Heli 4’ from the on-line retailer XHeli.com. This is my first time ordering stuff from them. What surprised me was that within 24 hours the merchandise was picked, packed and on it’s way!

Thank you for shopping at XHeli!
Your order’s shipping label is generated and is scheduled
to be shipped on 05/21/2010 via UPS.
EXCELLENT!!

New Heli and parts on the way!

I’m having it shopped to my office in Tacoma since I don’t want to have it sitting on my porch all day at work. Plus, there is ALWAYS someone there to sign for it, since we are 24×7 shop. Fast FAST shipping and great prices. We’ll see how it all works out.

This is what I’m expecting. 🙂

Exceed MadHawk 300

ESky Flight Training System

Now, I already had this one here. Which now I think I paid WAYYYYYYYY too much for:

RealFlight Basic

I’ve been practicing with it for a week now. It’s OK, and it has some cool planes in it, but the helicopter physics seem… weird. Really weird. And I completely irritated that I had to build a WINDOZE box to use the thing! Luckly I still had an old (circa 2006) Dell computer floating around, and it’s running Windoze XP (which the new software needs too.. got lucky there), but the hardware was not up to the task. Wish I’d known that when I bought it. So $100 for the software kit, then I had to toss in another $80 to get a decent DX9 compatible video card for the OLD PCI (not enhanced regular old PCI) interface, AND 1GB of memory for another $50. (poor thing only had 128MB in it.. not enough to even open the program.
So almost $250 to construct a flight simulator with a used computer!

Then.. then, I find this recommendation lurking around one of the Heli message boards. Heli-X.

It’s written in Germany AND it runs on Mac OSX!!!! So of course I downloaded it (it does not come with any controller, BUT the controller from RealFlight works PERFECTLY!). It’s also fairly pricey too at $50 Euro, and it only handles Helis BUT the physics in the trainer are SO much more realistic, at least to me.

Here is a shot of the simulator (sorry, I don’t have the controller hooked up at the moment so it’s just a shot of one model on the ground). It’s pretty good, and I’m learning that Variable Pitch, fixed throttle flying IS A LOT more intimidating that fixed pitch variable throttle!

Screen Shot of Heli-X

When will this end?

Helicopters, Radio Control

Proto CX Heli Flies Again (for a moment)

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After a number of pretty bad nose-in crashes (flying nose in is the most challenging), the bird was getting pretty beat up:

Proto CX crash worn

With the landing gear broken and the canopy smashed, it was looking very ragged. Not only that, but the metal rod and zip ties I had holding the landing skids together added enough weight to make it fly a little funny (balance, what balance?).

Removing the weight of the rod, well.. that was not really an option:

Broken and beaten Proto CX

Fortunately, the local hobby shop has a variety of replacement parts for these things (big shock, isn’t it?). The landing gear itself was about $8.50 to purchase. Easy enough. However, with all the plug-and-play miniaturization on these things, one thing that was not plug and play was the landing gear + battery tray. I’d have to perform some micro soldering to complete the repair.

Replacement landing gear for the Proto CX

I lit up the soldering iron and did my best. Turns out that it was a little easier than I thought it would be. Plus, I didn’t accidentally melt any of the sensitive parts, like that servo there, located perilously close to the solder points I needed to use.

Completing the repair.

With the important structural stuff fixed, the canopy was re-attached and she’s ready to fly. Good, maybe bad, but the shop did not have replacement canopy in stock. It’s OK I suppose, since I’d crashed this many times on the nose before the canopy finally shattered.

Broken gear left, repaired bird right.

Some pieces are still missing, but some clear tape and Sharpie marker returned it to serviceable condition. It’s not going to win a beauty contest, but it does fly, as you can see here!

Radio Control, RC Fixed Wing

Radio Control Problem Expands – Now flying: P-51

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It was bound to happen. I’m hooked. This Radio Control stuff is just as fun, if not more fun (now that I can afford basically anything I want to fly) than it was as a kit!

While driving all over Puget Sound looking for a few things (good price on transmitter set, a good 450-class heli, some training software, parts, etc. etc) we stopped at HobbyTown near PLU. This place is more like the old-school hobby shops of my youth. Piled with all sorts of cool kits. A little bit of everything. Old display fixtures and a group of characters behind every counter. Reminded me of Houston’s Hobby in the Cambrian area of San Jose. Digressing…..

Atop a counter sat a small collection of R/C demo aircraft. The Boy gravitated straight towards the P-51 mustang there, and asked if he could see if fly. It didn’t look like they had ANY place to fly a fixed-wing model, so I was surprised when the guy picked it up and said, “Sure, let’s check it out. It’s a little windy but I think we can do it.” And that he did.

I was impressed by the 4-channel micro foamy plane’s ability to fly, and to handle the breezes. The Boy wanted to see it fly over and over again, but the batter was low in the plane and it barely made it back. LOL.

Long story short, they guy at the hobby shop made a sale because of that demo. I was $135 lighter in the pocket. Which I didn’t think was *that* bad considering that buys the plane, the transmitter, receiver and servos, battery and charger, plus it’s completely Spektrum DMS2 2.4 GHz spread-spectrum compatible (how compatible I would shortly discover, more on that later). That’s it on the right there, in case you can’t tell the difference between a heli, a can of PBR and a P-51.

Proto CX Heli and HobbyZone P-51 Parkflyer

We drove all around town, even up to Tukwilla for another hobby shop before heading home with the batteries in the P-51 charging up in the back of the car.

When we arrived home, there was still plenty of sunlight to go fly. So that’s what we did! Took the little P-51 out for it’s maiden voyage. Thankfully it’s light weight and made of foam, because it spent white some time ‘landing’ on surfaces other than it’s wheels. One crash was bad enough to snap a better connector off. This was the begining of it’s downfall, and really, mine as well, I just did not know it yet. Fortunatly the battery, even though it was broken, was still able to be attached to the plane. So I crashed it until dusk and we headed home.

I discovered that flying fixed-wing is fun too! 🙂

Radio Control

Two more Videos from MikeysRC – foam FPV flights!

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A really cool FPV (flying point of view) video from MikeysRC.com. A scratch build twin-engine foam plane with HD video transmitter. Aircraft flown off the top of a local hill provides some neat views.

Here is yet another cool plane. This time, it’s an all-foam ducted-fan Concord. LOL. The in flight video is great.

Watching these has really inspired me to not only learn to fly Helis, but also R/C planes. So, keep reading to hear more about what I’ve been crashing and repairing over the last two days.

Helicopters, Radio Control, Uncategorized

Radio Control Transmitter Research

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Following several days of research into radios, price checking, etc. etc., I’ve decided to go with the Spektrum DX6i to get my feet wet with this hobby.

Spektrum DX6i Radio Control System

It meets the minimum requirements for Helis, and it’s available locally for the exact same price as it is online. Which I found really interesting, no ‘better deal’ to be had. I could go into the used market but, I don’t want to purchase anyone’s previous issues. I’d rather know it’s all new and working to maximum possible performance.

Some time around June they plan to announce US distribution of an 8 and 10 channel model. With a clear upgrade path, which I’m sure means I can use the newer radio with an older receiver and, if I decided to get further into the hobby, my old Heli can still be flown with a newer radio, as well as an older one.

Another neat aspect of the 2.4 GHz Spread Spectrum designs are that multiple radios can run in the same area and not cause problems, no cross-channel issues since the radios can bind to specific receivers and visa-versa, removing the need to fly ‘channel flags’ and have crystals on hand so you do not interfere with other people that might be flying nearby. Plus the Spektrum radios are the only ones that work with the Bind-and-Fly RTF (ready to fly) fixed-pitch trainers also locally available.

Pages I’ve read to learn about the differences in transmitters, pros and cons.

Spektrum DX7 vs. DX6i

Here is a good bit of data, detailing the difference between the Spektrum DX6i (the most common recommendation I’ve heard so far) and their updated DX7. The additional features of the 7 over the 6 for Heli pilots is relevant, mainly in the CCPM mixing realm. It’s also a lot more expensive.

Heli Mixes

The Spektrum DX7 offers more cyclic/collective pitch mixing (CCPM) capabilities than the DX6i. The DX6i will operate 1 servo/90 and 2 servo/120 type swash plates. The DX7 will operate 2 servo/180, 3 servo/120, and 3 servo/90 type swash pates.

The DX7 allows you to program 3 throttle curves and 3 collective pitch curves, where as the DX6i has only 2 throttle curves and 3 collective pitch curves. Each throttle and pitch curves for both transmitters have 5 programmable points.

The heli version of the DX7 allows for up to 3 programmable mixes and the DX6i only gives you 2 programmable mixes. If you’re new to helis and need some more explanation of these features, I strongly suggest checking out this excellent RC helicopter website!

Spectrum DX5 vs. DX6 vs. DX7

Read Here

DX7 Heli Prices

RedRocket Hobbies
Spektrum DX7 7Ch Heli w/AR7000 & 4-DS821 MD2
Our Price: $349.99

DX6i Transmitter Prices

RedRocket Hobbies
Spektrum DX6i 6 Channel Full Range w/o Servos MD2
Our Price: $199.99