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Last month marked the 15th anniversary of the 'Ask Aaron' website. We celebrated by sponsoring a Combat Robot Mad Lib Contest with an unbelievably huge prize!
Congratulations to Ian McMahon for his winning entry! I can't wait to use it. Jump to our 15th Anniversary Contest Page to read all the entries.
A: [Mark J.] Two things:
A: Series 1 'OverDrive' was powered by direct-drive electric bicycle brushless hub motors, which place the entire driveline into the wheel. This greatly simplifies robot design and speeds construction, but also limits the ability of the builder to optimize the drive system.
Although the motors were placed in the smallest practical wheels, the drive provided considerably less torque than conventional combat robot drive systems. For series 2, a completely new version of 'Overdrive' wisely reverted to conventional drive motors.
Q: Do amp flow motors only work with amp flow escs? [Arlington, Virginia] A: [Mark J.] AmpFlow motors may be controlled with any brushed motor ESC of suitable voltage rating and current capacity, and AmpFlow ESCs will operate any standard brushed motor within their current and voltage rating. Q: Can you make a calculator for how much current a given motor will draw at a given load?
A: Permanent magnet direct current brushed motors have a linear relation between torque output and current. If you know the torque output required, the formula is very simple:
Q: Would the ampflow a28 400 running a small disc be appropriate for a lightweight? If so, would the RageBridge 2 be a good weapon ESC?
A: Several comments:
Q: What makes the RageBridge 2 so good for lightweights? It’s amperage rating is so tiny. A: Previously answered. Search the Ask Aaron Motors & Controllers archive for 'Ragebridge'. Q: Would a sabertooth 2 x 60 driving 2 amp flow e30 150 motors be adequate for a lightweight? [Dallas, Texas]
A: [Mark J.] Motor current draw depends on voltage, wheel diameter and gear reduction ratio as well as motor type and robot weight. The
Tentacle Torque Calculator
can evaluate these factors and provide an estimate of maximum current draw as an aid in motor controller selection. It will also model the speed and accelleration of your design. Learn to use this valuable tool.
The Sabertooth ESCs have a poor reputation in combat applications. Builders using them have reported sudden and unexplained complete failure of the controllers following a high-energy impact. Although they work well in general robotics I no longer recommend their use in combat robots. In this power range I recommend the RageBridge 2.
Q: You've got a recent post about a rubber band powered flipper ['Millitant' - five posts down the page] that looks interesting, but I don't understand how the servo release mechanism works. Can you walk me thru that? [Some guy that cornered me in a alley]
A: [Mark J.] I made an animation that should help. The flipper arm pivots on an axle that is seperate from but coaxial with the servo output. The green line is the elastic band (or spring). The red rectangle is the servo arm. The servo itself is not shown so you can better see the release/reset action.
Q: Hey, man! It's been quite a while since I last posted here, huh? Welp, I'm back with a bit of a featherweight conundrum. To give you the long story short [You call this 'short'?] I went to EOH [the Engineering Open House] at the U of I [University of Illinois] in March and watched the featherweight competition [Robobrawl] they had. After doing so, I've been thinking about getting a team together to compete for next year. However, there's a catch: I don't want to pitch anything at them, guns blazing: I want to have most, if not, all of the specs down and ready to present to a group of people as a document and a presentation (if needed) in order to heavily streamline work or maybe even get it done before the competition (seeing that the next competition isn't until March 2019, I can say I've got a bit of time on my hands). Not only that, but it will help our team get the money to participate both through iRobotics [website] (which gives a starting budget of $2500) and through local, smaller businesses that may want to help out. My idea is to make a featherweight full-body spinner similar in shape to that of 'Ziggo' (the idea was that it would be themed around a land mine) or the only FBS that was a featherweight I could recall off of the top of my head: 'Badger' (from Australia). There are five things I came here to ask, which I will lay out for you below:
I know that that's a lot of info, and some of the info is missing because an exact size hasn't been chosen yet, but I hope you can help me out! As always, if there's anything else you would recommend I am always happy to hear your advice! Thanks again for the advice and all of your help! [Champaign, Illinois]
A: [Mark J.] New question length record - 847 words I think I can answer your questions more concisely.
The featherweight FBS that you should 'recall off the top of your head' and emulate should be:
Tetanus / Triggo - Team Brain Damage owns the featherweight class in the northeast US. Full-body spinner 'Tetanus' went 21-2 with five titles before being updated with a stronger shell, renamed 'Triggo', and adding on a 20-6 record and three more titles to date.
A: So... it's a spike... on the front of the robot... that spins like a drill bit.
I don't understand what you expect the spike to accomplish, and I don't understand why you think spinning the spike helps. The spike WILL help wedges to slip under your bot, the spike point IS highly vulnerable spinner bait, and a sharpened point - spinning or not - will do no damage to any 'bot armor.
My suggestion to make the 'bot better is to remove the spike and rotating mechanism and use that weight to make a stronger wedge.
Q: Hello Aaron. It’s my first time in your wonderful world of robots, and I hope you can help me with a problem. I have a Sabertooth 2x32 controller attached to two 200 watt motors. The system runs on 24 volts and is controlled by a wired analog joystick. The thing is that the motors are running weaker and slower than I expected. Checking the output from the controller to the motors with a DVM shows 12 volts instead of 24 volts. I checked the parameters with the software, and everything looks OK, but maybe I overlooked something? The joystick signal is 2.5 volts in the center, 5 volts at full forward, and 0 volts at full reverse. I don't know if that's OK or not - I thought it should give 5 volts in every direction. I appreciate your help in figuring this out. Arik [Tel Aviv, Israel]
A: [Mark J.] Hi Arik. The Sabertooth 2x35 controller is made for general robotics applications; its functions are much different than the dedicated R/C Sabertooth controllers used in combat robots. Still, I may be able to help find a solution to your problem.
Q: Hi Mark, thanks a lot for your last answer! I sent the question to the controller company support, hope to find an answer shortly.
I have another question. The platform that I am designing must carry in total 160 kg, and must move at up to 18 km/h. The system supplies 24 volts to two motors (200 watts DC brushed motors for now). The motors drive the wheels with a belt direct from the motor shaft in a ratio of 7 to 1. I don't know the motor torque. Are the motors OK for my design or do I need to find new motors? If so, what do you recommend?
A: Without full motor performance specifications I have no way to calculate the performance of your platform when powered by your proposed drive train.
'Ask Aaron' specializes in questions about combat robots, which have very different requirements from the platform you are building. We are not a free engineering service. I think you will do better to find a general robotics forum to supply advice for your project.
Q: Am I allowed to ask as many questions as I want (That are robot combat related)? Thanks! :) [Lynn, Massachusetts]
A: [Mark J.] You may ask as many questions as you like, and I will answer as many as I please.
There are a few off-limits topics, identified on the page you see after submitting a question. There is more guidance in our mission statement:
I am in the process of building a beetleweight robot, and I decided to try making a rubber band powered flipper. I have been insipred by a mechanism used by a UK antweight named 'Militant', as well as footage of a couple of Lego robots that weigh nearly as much as a beetleweight. Essentially, I'm aiming to build a beetleweight replica of Robot Wars series 10 champion, 'Eruption'. I have a servo which has 33kg/cm of torque, which I'm hoping will be enough to crank the flipper into position. The same servo will also be linked to a release mechanism which will fire the flipper. I have a 2kg (4.4lbs) box of dumbbells ready as my practice opponent, thinking that if it can flip this, it can flip other beetles easily. (I know it sounds excessive, but I couldn't find anything weighing exactly 3lbs that would be suitable for the job.) My questions are:
Example - If your rubber bands exert a 10 kg force when the flipper arm is latched, and the distance from the flipper pivot to the rubber band attachment is 2.5 cm, the torque required by the servo to latch the arm will be
Note - Don't copy 'Militant' too closely; it has far too little weight on the drive wheels.
Q: I am currently working on my next hobbyweight and have some questions on press fitting. I recently landed a job at a CNC shop and am able to achieve tight tolerances. I am wanting to press fit my pulley onto my motor for the weapon system. I previously used set screws, which worked most of the time but also failed, as set screws often do in this sport. I have watched several videos about press fitting , but (inconceivably) they weren't combat robot related. My question is, is press fitting the best way to go for attaching pulleys? Or will it not hold up? BTW I have asked you several questions over the last few years and your answers have been spot on. I truly appreciate the time you take to offer us advice. [Albany, Oregon]
A: [Mark J.] Thanks, Albany. I got a lot of help from some very generous people when I started to build combat robots, and I'm just trying to pay back my debt to the community.
You and I have previously discussed the merits of non-circular shafts and matching hubs for small shafts, as well as clamping collars and the problems with set screws. Readers can catch up on that post in the Ask Aaron 'Ants, Beetles, and Fairies' archive (link).
I'm not prepared to say that an interference 'press-fit' is categorically the 'best' method for attaching a hub to a small motor shaft. Press fitting is something of a black art, particularly then using dissimilar materials like steel into aluminum. You can try an on-line calulator to assess the torque capacity of a specific press-fit junction but, as you point out, combat robots place odd and unpredictable loads on structures.
I'm willing to say that I'd much rather go into combat with a correctly press-fit pulley than with a set-screw pulley. The only down-side I see is the difficulty of pulley replacement in the pits if you do have a failure at an event. Having spare complete motor/pully assemblies in your kit would be the solution.
I've used a lot of press-fit gears on small motor shafts over the years and never had a failure. Make up a hub and do some testing.
Q:I'm having trouble with a pair of 550 series motors I purchased recently. At full throttle the motors spark and sputter with the power dropping off and surging. They do this even when powered directly from the battery (3-cell) so it isn't the electronics. I've never had this trouble before. What's going on here? [Northern Ohio]
A: [Mark J.] This sounds like motor brushes that aren't seated properly. Inexpensive brushed motors like your 550s are manufactured by several different sources, so even if you're buying from only one distributor you may be getting variation between one batch and the next. The care taken by the manufacturer to assure that the brushes are correctly contoured to match the commutator is one of the things that can vary.
Prior to subjecting to full power, brushed motors (particularly small, inexpensive ones) should be 'run in' at low-speed/no-load to allow the brushes to wear in and match the curve of the commutator. Failure to do this may result in electrical arcing that can damage the brushes and commutator.
Q: Hi Mark, I was doing calculations for our competition and was wondering about the relationship between bite and energy storage. What is the tipping point for bite to energy storage? For our 5 inch radius spinner we can spin it to 16,000 rpm with a bite of 5 mm at 12,000 joules stored. We can also spin it to 8,000 rpm with a bite of 11 mm with 3,500 joules stored. At what point is bite more important than energy storage, and in what situations? Does this change for bot designs and weight classes? Many Thanks. [Pittsburgh, Pennsylvania]
A: [Mark J.] Take a look at the 'Rotational Speed' section of the Ask Aaron Spinner FAQ. The 'bite' required is highly situational, and it does depend on your weapon design, your opponent's design, and the influence of the strategy employed by both you and your opponent as it effects the true maximun closing rate of the 'bots. As it says there:
Q: Does the shape of the bar on a bar spinner make any difference? Thanks! :) [Lynn, Massachusetts]
A: [Mark J.] Yes, shape and size make a huge difference in spinner weapon performance. Read the Ask Aaron Spinner Weapon FAQ and then play with the Spinner Weapon Kinetic Energy Calculator. You might also be interested in the extended discussion I had with a builder designing a large bar spinner: Texas Bar Spinner. Q: Is there a way to vote for Robot combat hall of fame robots? A: Yes, see this post in the Ask Aaron archives. 
A: [Mark J.] 'Tombstone' is likely the simplest 'bot at the BattleBots reboot and it has the best record at those events -- but the producers of the show only accept complex robots with big weapons that generate a lot of destruction for the cameras. Truly simple robots aren't allowed to compete, so this can't really be considered 'open' competition.
The 250-pound version of 'Tombstone' does very well against the artificially complex robots at the new BattleBots: a 91% match win rate! However, Ray Billings' other bar-spinner robots don't have the same success rate against more competitive 'real world' combat robots.
Why not as good? Because simple robots are tougher competition than complex showboat 'bots. Which heavyweight robot has the best record against 'Last Rites'? That would be an even simpler robot: the fearsome wedgebot 'Original Sin'.
Simple 'bots win
Q: So I'm only a kid and I love deigning combat robots but I don't have the time, parts, money, parents permission, etc. to make one. Is there any other way I can find my way into robot combat? [Lynn, Massachusetts]
A: [Mark J.] There are some options:
Q: So I had an idea for a bot that is baisically a full body spinner mounted on a wedged body. You said simple designs win. Is this a good idea or totally dumb? [Burlington, Vermont]
I have evidence that simple robots win. In 2006 and again in 2016 I sifted thru the results of robot combat tournaments and compared the results obtained by robots with different categories of weapons. You can read the results here. The results may surprize you.
Build what you like, but if your idea of a 'simple robot' is to take a deceptively complex robot of a design that rarely wins and mount it on top of another style of robot that nullifies the only advantage the weapon has, you're asking for advice at the wrong place.
Now press the cheerleader button; it'll make you feel better:
Q: What if a bot had a hammer but the blade could split in half and turn into a spinner? Would this be a good idea? What are some of the pros and cons about this? By the way thanks for answering my Bronco pneumatics question! Thank you! :) (M) [Lynn, Massachusetts]
A: [Mark J.]
You may not have thought this through. Perhaps I don't fully understand your design, but it makes very little sense to me.
Aaron's Wisdom I've said this often but builders don't want to believe me:
Drivetrain, radio set-up, general construction practice, and weapon/chassis balance are all much more important than the type of weapon you choose. There are plenty of examples of winning robots with ineffective weapons, and there are many more examples of losing robots with awesome weaponry. If you get the basics right you're going to have an above average robot no matter what weapon it carries. Q: So I had an idea that I have no idea if it is good bad or dumb. A spinner that can change from vertical to horizontal. If this were to compete, what would it's advantages and disadvantages be? Thanks!
There have been many attempts at robots with multiple/interchangeable weapons, and very few have done well. You may be interested in reading up on 'Bombshell' -- a heavyweight robot designed around a modular interchangeable weapon set. 'Bombshell' was constructed by a large, well-financed, very experienced team -- this is not an undertaking for an inexperienced builder.
Build a simple robot, strong enough to hammer down a door. If a part breaks, make it stronger for the next fight. Drivetrain, radio set-up, general construction practice, and weapon/chassis balance are all much more important than the type of weapon you choose.
Q: How did 'Pork Chop Jr.' end up fighting in China? What happened to it there? [East Texas]
A: [Mark J.] After losing all of its matches at Rocket City Robot Assault, 'Pork Chop Jr.' fled to India where it competed in cage matches for thousands of rupees. After crippling a professor at IIT Goa, it got a job on a Chinese TV show where Zhang Yimou drove it directly into the arena hazards. Depressed and now missing a wheel, it went drinking at a disreputable KTV where it met a girl from Xinjiang. Accompanying her home, 'Pork Chop Jr.' settled down to life as a goat herder.
See also: The Many Lives of Pork Chop Jr.
Q: Hello! I’d love to know what motor(s) did Paul’s bot “Brutality” from Aptyx Designs used, and how was it configured? [New York]
A: [Mark J.] The heavyweight version of 'Brutality' was thrown together on short notice, largely from spares for the earlier middleweight 'bot of the same name. Paul Ventimiglia was with Team Demolition at the time, and the 'bot was later campaigned by Paul for WPI Robotics. Aptyx Designs is a more recent team created by Paul for the BattleBots reboot.
Brutality's drive motors are short MagMotors connected to Team Whyachi parallel-shaft gearboxes powering the front wheels. A long chain runs back on each side to drive the rears.
The weapon is powered by two AME D-Pack motors driving a right-angle Team Whyachi M3R2 gearbox up to a final stage spur gear at the blade. Similar in size and performance to the AmpFlow E30-400 motor, the inexpensive AME D-Pack was widely used for weapon power until supplies dried up several years ago.
'Thank-you' to Paul for quickly returning my message and verifying what I gleaned from the photo -- he's pretty busy right now.
Q: how would a circuit of a rotating weapon robot with a brushless motor in the weapon and two DC motors in the wheels? [Michoacan de Ocampo, Mexico] A: [Mark J.] See Frequently Asked Questions #19. Q: as would be a circuit of a combat robot with a brushless motor on the weapon and 2 engines brushed on the wheels.[Michoacan, Mexico].
A: If the diagram in FAQ #19 isn't what you're looking for, I'm not sure what you want. Maybe this will help:
Q: how can robots help us deal better with hurricanes and why? [Ontario, California] A: [Aaron] Few people in Nebraska are threatened by hurricanes, so send a swarm of killer robots into low Atlantic and gulf coastal areas to drive the puny human inhabitants toward Nebraska. Problem solved. Robot haiku:
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Q: So I saw overdrive S1 had some technology in it's wheels. What does this do? Thanks! [M]
Q: So I had a simple (or I think simple) idea of a bot that had a rotating spike. Is this a good design or does it need some work? By the way ty for wandering all of my questions! :) [Lynn, Massachusetts]
Q: Heres a cad of the idea. The spike is the spike that spins. Is there anything you would add to make it better? Thanks! :)
With complete motor and drive train specifications, the
A: [Mark J.] There is a lot of space between 'good idea' and 'totally dumb'. People build combat robots for all sorts of reasons:
A: Let me say this again:
