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| View Poll Results: I probably would buy an industrially made AC servo drive if it costs at most | |||
| $100 |     | 30 | 16.95% |
| $125 |    | 9 | 5.08% |
| $150 |    | 40 | 22.60% |
| $175 |    | 13 | 7.34% |
| $200 |    | 33 | 18.64% |
| Would rather assemble it my self, components cost $40..70 |    | 52 | 29.38% |
| Voters: 177. You may not vote on this poll | |||
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#1
 
06-29-2006, 04:32 AM
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Hi, This is the poll I discussed here. And whole thread can be seen here. In short this is a poll to ask whether you would like to get AC (and DC) servo drive industrially assembled and tested or as DIY kit. I estimate that a batch of 100 units could be produced at end price of ~$150 or hopefully even less. About sinusoidal AC servo drive project: http://www.students.tut.fi/~kontkant...drive.php.html The drive is designed using Sanyo P5 servos and especially optimized for CNC use. Please express your thoughts! :-) Last edited by Xerxes; 06-29-2006 at 05:00 AM.  |
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#3
06-29-2006, 09:16 AM
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| servo drive industrially assembled and tested or as DIY kit Xerxes, Why not offer both? Personally I would opt for an assembled and tested drives, others of course would prefer to save as many dollars as possible, or enjoy the assembly. Ken |
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#4
06-29-2006, 10:16 AM
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| I voted for build, but if the price is right (~ $125-150), I might be tempted to buy. But, I'm not sure when I'll be ready to buy, and I'd be temted to buy a kit sooner and have them in hand, rather than wait a year or two (when I'd actually need them) for something that may no longer be available in the future. Does that make any sense? 
__________________ Gerry Mach3 2010 Screenset http://home.comcast.net/~cncwoodworker/2010.html (Note: The opinions expressed in this post are my own and are not necessarily those of CNCzone and its management) |
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#5
06-29-2006, 10:36 AM
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But there is a other side. Maybe in a few years there wil be something even better and/or cheaper. Difficult choice. |
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#6
06-29-2006, 04:48 PM
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| Xerxes, have you considered adding feedforward gains on your controller? Feedforward is VERY important on pulse/direction servo drives to keep the actual vs. commanded position errors low. Only using a PID loop will result in large errors during acceleration and possibly at high speeds. The velocity feedforward may not be needed if the Integral term is high, but increasing "I" is never a good idea. I'm not sure if you have any "industrial" servo drives to compare with, but I have Teknic unit here if you want to borrow it. |
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#7
06-29-2006, 09:29 PM
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| I voted 175 if its going to be reliable, if its going to be exceptionally reliable I would pay 200 I bet. Jon
__________________ CNC Mini Lathe Plans and Rotary Table kits: http://jfettigmachines.com |
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#8
06-30-2006, 12:16 AM
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| I wanted to try out industrial servo's so I bought three Omron step and direction drives and matching motors for 300 bucks off eBay. One 100 watt and 2 200 watt units. Small but suficient for comparison to the other drive system I will evaluate, Geckoe's and DC brushed motors. If the boards end up at over 150.00 it would make more sense to me to buy used industrial drive and motors off eBay. The Omrons are awesome. Smooth, lightning fast and completely silent. I have yet to put them under load, besides my fingers, but it has been really nice working with the software and jogging them around. I'm sold on these AC systems. They have all the features talked about, and I expect they will perform flawlessly. The major concern for me was support, but Omron's has been great. I am going to try and snag a Kollmorgan Servostar CD soon, it is another step & direction drive that is available often, and Dahnaher is the support company. I will definately be watching this project and hope to try one out as well. One thing I dont understand is the hype over the Sanyo P5 motors. What makes them so special?
__________________ Halfnutz (Note: The opinions expressed in this post are my own and are not necessarily those of CNCzone and its management) |
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#9
06-30-2006, 03:04 AM
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| I listed some pros and cons of DIY and industrial assembly: Industrially assembled: +Works for sure, every drive personally tested by me +Components are cheaper in quantity purchases. If volume is large enough it will make industrial and DIY price difference insignificant. +If the drive is success, there will be more -Starting costs DIY +It’s nice to build something +Cheaper in small volume -More defects. Most problems are probably caused by small assembly mistakes that may be hard to find. The final drive may have chips with 0.5 mm lead pitch which can be shorted very easily and can be difficult to repair. Most hobbyers don’t have tools for desoldering TQFP packaged microcontroller without breaking it. Now something I haven’t mentioned here before: I and one of my friends are seriously planning to start developing drives to compete existing commercial solutions in price AND quality. Our goal would be to make industrial quality drive that second to nothing in the market. That is the reason why I have been so careful about source code. I’m personally very open source minded. I have contributed to several OS projects and have released some my own too but in this case I’m careful because of possible business. I’m most probably releasing the source if I find it riskless or if there will be no business and drive remains only as hobby project. |
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#10
06-30-2006, 03:05 AM
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| HillBilly: One possible mosfet is IRF640N which has been rated for 200 volts and 18 amps current. To be realistic it could be stressed no more than 8-10 amps continuously. If you calculate 200V*8..10A, it theoretically would give 1.6..2 kW. In practice it would be less because motor voltage is less than 200V. CNCAddict: Sure, there will be tunable feedforward paths (first and second order). And integrator will have anti-windup logic to make nicer recovery from output saturation. There will be also PI tunable current regulation feedback that is not available even in many commercial drives. It would be interesting to get hands on some commercial drive for comparison. :-) |
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#11
06-30-2006, 06:37 AM
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But then you have to calculate many will have problems building their own, and you will have to support them, which costs a lot. Serious problem.
I would propably not buy one, DIY is cheaper, more a challenge, more fun. And there is a small change someone will design something like it, and put it on the internet for free, open source and all. This might hurt your bussines, and investments.
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#12
06-30-2006, 07:26 AM
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I would happily share also my source code for DIYers but there is a problem called industrial piracy. See some posts from Mariss Freimanis, he doesn't seem to be very happy about industrially mass produced pirate G201's. :| Last edited by Xerxes; 06-30-2006 at 12:07 PM. |
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