![]() Employment Opportunity / RFQ (Request for Quote).It'll need to be edited still, but it'll getcha 80% or so. I've found, if you need the information, that MillMaster seems to operate similarly to Amada or BOSS4/5 which both use Fanuc as a parent language. Instead, I've been using SheetCAM and a custom Post Processor I'm building from the other ones. Looking at how things are wired, though, it doesn't seem difficult to fix the issues, it's just figuring out what the issues are.Īdditionally, I've steered away from using MultiCAM which I found to create clunky g-code. Once I break in to the circuits for this, I'll have a better answer for you, but atm, I'm way behind and won't have an opportunity for several weeks to dig in to this issue. To those that are confused, just take a look at the wiring diagrams for the pinouts they should give you the information that you're looking for. In addition to this system, there appears to be a PLC to really muddle things up with tons of cables in a mishmash soup of "this works just fine" mentality. This is the exact same setup my boss picked up for a homemade table. You will need a plug that you can take apart to acess these wires Now thinking about it I think I could of simply soldered pin#9 wire into pin#11. What i did was remove wire from pin#9 on cable ran the wire to solid state relay on positive side.įor a ground i ran it from shield on plug to negative on relay. On Microkinetics Mighty Drive Pin #11 is a input requiring + 5vdc on and off to activate and deactivate solid state relay. Pin #9 on serial port on computer is a output on and off of 5 vdc. Setup Mach3 to use output to pin #9 (read setup on spindle noted on Mach3 website) This is what i found and it works for getting spindle output relay to work. I did it by simply wiggling the pin back & forth until it snapped off at its base. Once you have that cable, you will need to physically remove pin # 25 from each end of the cable. I found them all day long on eBay for about 10 bucks. So, for now go get you a male to male Db25 pin parallel cable. If u plug your 25 pin cable from the parallel port to the mighty drive box you will pop a 3 amp fuse inside the mighty drive and nothing will work. Your parallel port has pin numbers 18 - 25 all internally tied to a single ground. This is where the OptiStep card gets its power and subsequently will send step, direction, and output signals back to the mighty drive box. First thing first though: ***** DO NOT PLUG YOUR 25 pin CABLE INTO YOUR PARALLEL PORT ***** The mighty drive box (same as my SuperDrive box, sends +5 volts out on pin #25 and -5 volts (aka ground) out on pin #23. Headquarters: 5300 Oakbrook 300, Parkway Bldg Ste 395, Norcross, Georgia, 30093, United States. From what I saw at a glance you should have no problems doing what I did and freeing yourself from the antique hardware and software. Katherine Grubbs, President of SuperScribe, LLC, launched the company in 2010 as the first one based in Georgia to provide clerical assistants to doctors during. The theoretical prediction is validated by experimental data from thermogravimetric analysis, and it is demonstrated that the first-principles-based microkinetics rate equation theory can provide an accurate prediction of the reduction kinetics of Fe 2O 3 oxygen carrier in chemical looping.As I have time today or this eve I will look over the documentation I just downloaded the for Microkinetics hardware you are using and will give u my opinion on what to do. At the grain scale, a rate equation theory is developed and used to couple the surface reaction with the bulk diffusion of lattice oxygen, and the reaction mechanism and reaction rate constants obtained from DFT and TST are introduced into the rate equations to predict the reduction kinetics of Fe 2O 3. The energetic data, frequency, and atomic structure obtained from DFT calculations are introduced into transition state theory (TST) to calculate the reaction rate constants. ![]() We have really enjoyed working with Superscribe. Both Hardik and Chintani really understand the finance and content domains and are full of new ideas and plans to make the content journey better and better. At the atom scale, the surface reaction mechanism of H 2 with Fe 2O 3 is investigated on the basis of density functional theory (DFT) calculations. The Superscribe team helped us create content, which was not only great quality but also very relevant. This study proposes a first-principles-based theoretical model to calculate the heterogeneous reduction kinetics of an Fe 2O 3 oxygen carrier in chemical looping. How to couple the microscale surface reactions with the macroscale kinetic phenomenon and achieve a first-principles-based kinetics prediction is an unsolved problem in the field of chemical looping.
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