FYI -This is the relay circuit I used to do the voltage conversion on the limit switches:
Attachment 346230
Using a relay allowed me to use normally closed (NC) switches but still use the normally open (NO) inputs on the BOB.
FYI -This is the relay circuit I used to do the voltage conversion on the limit switches:
Attachment 346230
Using a relay allowed me to use normally closed (NC) switches but still use the normally open (NO) inputs on the BOB.
No, the Laird was just a quick page grab to show the general idea. I don't recall any special instructions, but mine is located a foot away or so from the PC connector. It slides around pretty easily. The only markings I can see are "Fair-Rite V0" and it looks like Figure 2 on this page:
Round Cable Snap-Its Archives - Fair Rite
On edit: Mine measures about 1.25" long (C) x 0.42" high (D) which might narrow it down a bit. I didn't measure directly but it looks like the hole diameter is between 0.4 and 0.5 in. The PC cable is about 0.4-in OD and the ferrite slides easily on the cable.
Hi Phil
I'd stick with normally closed switches
I expect its more likely for a cable to go open circuit than go short circuit
using an opto-isolator as in post 16 you don't need to change the mach3 config
have a look at any extra earth wires you have added and check they don't add parallel earth paths to the original wiring
its possible they have caused ground loops that could of added to your problems
John
Hi mill808, thanks for the input it is very much appreciated. Unfortunately I need to be spoon fed on these types of issue. Under the Mach3 Config drop down menu there are a number of alternative screens. I assumed you meant the homing/limits screen however I can't see an option to disable the limit switches on this screen. Please could you give me directions to the relevant screen.
Phil
Thanks for the Ferrite core info Michael. I'm assuming the core needs to be suited to relatively low frequency noise.
Phil
Thanks John, yes I had concluded from my read-up that normally closed was the safest option, I assume then that the opto-isolator doesn't care which option (NC or NO) is selected.
The VFD to HSS cable screening is earthed at the VFD and at HSS casing and the HSS casing is earthed to the mill body. In turn both the mill body and the VFD are earthed through the mains supply cable to each. Would this constitute a ground loop?
Phil
Philbur,
Yes, as many others have shared it is best to keep the LIMIT switches in the NC configuration. You can easily mod the wiring very basic. In the normal mode the 12 or 24V relay should be activated. Optos work great as well but figured if you are only doing this on the limit/estop circuit one relay might be easier to install unless you buy a small board that has an OPTO configured with screw terminals.
Russ
Hi Phil
If I have read your post correctly you have a ground loop between the VFD and HSS that may cause additional radiation from them
what machine do you have ?
as I have not worked on Tormach machines I don't have any details of the breakout board / control board tormach use in conjunction with a PC
its not easy to tell how sensitive the limit switch inputs will be to interferance radiated from the VFD
a photo of the BOB / control board would help and if possible the voltage across an open limit switch - is it 5V or more ?
John
Philbur,
Since you have combined Limit/Homing switches you will need to have one relay per axis.
You might want to get a relay bank with either 4 or 8 relays all ready to wire up. I think I would get the 8-bank so you can do all three axis and the e-stop circuit and have a few spares you can use later. They make these in 5V, 12V, 24V. I would go with the 12V or 24V as the 5V will not solve your problem.
Russ
https://www.amazon.com/SainSmart-Mod...mart+relay+24V
https://www.amazon.com/SainSmart-OMR...ay+module+8-CH
I have tried a number of different earthing scenarios but maybe I need to revisit regarding the loop issue. I have a Tormach PCNC 1100 series 1 with a number of upgrades so I believe the controller is the same as a PCNC series 3.
The open voltage on the limit switches is 12 volts DC not 2v as I previously stated. The limit switches are connected to the controller via the J2 terminal block. Complete manual is here https://www.tormach.com/product_pcnc_main.html#docs - manuals - Mach 3 version. Complete electrical info is at the back end.
See attachment for electronic details:
Attachment 346256
Attachment 346258
Attachment 346264
Philbur,
I just looked over the documentation quickly on the links you provided and noticed they actually have a noise suppression kit, which contains several Capacitors with lead terminals. Check and see if this got installed in your machine, they make this kit for a reason, someone else complained about noise issues.
Russ
File name: TD10160_Supression_Kit_Installation
Thanks for the info RUSS. I don't have this kit fitted. The link you give says
"The Suppression Kit is a set of 3 RC (resistor/capacitor) filters
that will effectively suppress electrical noise generated by the
on/off operation of machine contactors and any external
equipment connected to the switched convenience outlet
(coolant outlet)."
This suppressor kit is intended for specific components within the control cabinet. As I have changed nothing other than add the HSS and VFD, which is in no way electrically connected to the machine contactors or the switched convenience outlet
I can't see how these suppressors would have any impact on my current issue.
Phil
Standard practice is to ground the shield at one end only.
Also, the RC filters mentioned in your last post will filter any noise, not just what comes from within the cabinet. I'm not sure what voltage the limits on the Tormach operate at, but I have found that higher voltage is better for noise issues. I run 24V to my limits, and use a relay at the BOB to switch the pins. The relay is as close to the BOB as practical. This is much like was shown by someone else previously. This has pretty much eliminated noise problems I had running a router as a high speed spindle. Previously I used 5V to the switches and the limits would trip as soon as the router was turned on.
Philbur,
You are probably correct, sometimes you often see suggestions to put .1uF caps from the Limit switch inputs on the BOB to ground. This basically traps low high speed signals that can cause a system to think it is seeing a limit fire. The relay or opto approach if run at 12V to 24V isolates this from the BOB. The relay would typically be operated at 24VDC and that runs through your limit switch providing power to the RELAY. The contacts of the relay are completely isolated from the coil in the relay so you put the relay very close to the BOB so there is very little opportunity for noise to impact these LIMIT/HOME sensor inputs to the BOB. The coil side of the relay which is at 24VDC will not be impacted by the EMI noise as it is a much higher level. I actually tried capacitors on my system and it did get better but I still would get false ESTOP/LIMIT failures when the spindle went above 10,000 RPM. Every spindle and VFD combo is different but this approach is used in all commercial machines, as it is a common issue. It was hard to tell on your BOB if the limit inputs are just ground level inputs from the switches.
Russ
philbur,
In Mach3, from the menu bar, select Config ->Ports and Pins, then select the Input Signals tab. You will see the screen below. Clicking on any of the green check marks will disable the limit on the corresponding axis. As an example, on my machine, the physical switches for X++, X--, and X home are NC and all connected in series. The resulting two wire connection goes to one input on my BOB. So to see if the X axis is the source of the noise, I just click on those three green checkmarks and that input on the BOB is ignored by Mach3.
Keep in mind after making changes on that Mach3 Input Signals screen, you need to restart Mach3 for it to take effect.
Attachment 346268
Hi Phil
the noise filter kit adds a "snubber" (series connected capacitor + resistor) across the coil of contactors C1 & C2 and the third across the live & neutral to the outlet for the coolant pump
unless you switch the coolant pump on and off while running a job I don't expect the filter kit to help
the picture of the control board is not detailed enough to work out how it all works but
I can see there is two isolated power supplies
one provides +5V & +12V for the computer side of the circuits and another +5V & +12V for the isolated I/O side
with the part numbers being un-readable I have only found 10 opto-isolators
Attachment 346278
John
Hi John, thanks for the input.
The J2 terminal block in the top right, with the group of 4 regulators underneath, is the connection point for the limit/homing switches. It appears that the regulators are connected to the J2 block. Would the regulators serve the function of isolating any noise on the limit switches wiring from the controller.
Phil