Node TigWelder: verschil tussen versies

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(Board jumpers and settings)
(Board jumpers and settings)
Regel 111: Regel 111:
 
== Board jumpers and settings ==
 
== Board jumpers and settings ==
  
Board - serie nummer 4
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=== Board 2 ===
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 +
# Rework 1 - verwijderen ESD diodes antenne
 +
# Rework 2 - omdraaien transistors programmering
 +
 
 +
Changes
 +
 
 +
# 0-ohm (jumpering) R109 removed; 5V of USB not connected to 5V rail.
 +
 
 +
=== Board 4 ===
  
 
# Rework 1 - verwijderen ESD diodes antenne
 
# Rework 1 - verwijderen ESD diodes antenne

Versie van 27 sep 2024 om 20:27


PoE powered Node on AC voor de Tig Welder.

Normal operation

Turn ON

  1. Check both pressure dials. They should both show pressure.
    1. If not - they may be empty and someone before you may have not bothered to replace the bottle. Baad. Check by turning the welder on and trying to weld.
    2. If that works - then you may have to fix the leak or report this to the mailing list - so it can be fixed.
  2. Swipe tag
  3. Turn on with the switch on the front
  4. Open main valve on top of the gas bottle.

Turn OFF

  1. Turn off with the switch on the front
  2. Close the main Values on top of the gas bottle.
    1. Node beeps to remind you to do so.
    2. Node will stop beeping.
  3. Check the pressure
    1. If it is below XXX - arrange for a replacement bottle and report this to the mailing list.

Do not unplug the welder; leave the power cable in the wall socket. We use this to track gas leaking and usage.

Bypassing the node

With the explicit permission from a trustee - a node can be bypassed. For example when it is broken.

There is a red dip switch on the back of the board. Placing it in the 'on' position will bypass the node; and provided power to the TIG and the shutoff valve. I.e. the on-off button on the front of the welder can then be used as af there is no node.

Obviously - doing so without the express permission is a sure way to loose your membership.

Trouble Shooting

Check what is on the display. The first QR code will bring you to this page. The second QR code will show you the logs in a browser. You can also telnet to the IP address shown in the 'MORE' display to see the log in real time.

See this page for more details.

No Gas ?!

  1. Are BOTH valves open ?
  2. Do the meters show pressure
    1. If not - you've ran out of gas. Arrange for a replacement -and- report to the mailing list. Be wary of the 125L limit.

Swipe ok - but does not want to turn on

  1. Do you see waiting for card on the display ? If so - it has not read your card (yet).
  2. Did you hear one or more beebs when you swiped ? If so - your card is picked up ok ?

If you hear beebs:

  1. Did you hear 3 or more beeps when you swiped ? If so - your card is not getting permission from the system.
    1. Does your personal page in mijn.makerspaceleiden.nl show that you have permission ?
  2. Did you get your permissions quite recently ?
    1. Is the internet in the space up and running (as it only periodically updates its database).

The Machine does not want to accept my badge

  1. Do you hear a beeb when swiping ? If so - it has read your card -- and see above issues.

If it did not beeb:

  1. Did it work on the door ?
  2. Does it work on any other machine ?

If so - your badge is fine - but we may have a broken ACNode or a broken reader. Report this to the mailing list - or if you know a little of IT and electronics - go to the troubleshooting section and connect to the log via your webbrowser or via telnet. Then swipe again and see what really happens.

Note that we are, at this time, not sure if these nodes will survive the welding area.

Resetting the Node

Unplug the main power cable of the welder from the wall scocket, wait 10 seconds and then re-seat it.

Wait about 10 seconds until you try again.

Electronics

TIG AC Node, schematics

De node is AC powered; en zit 'voor' alle electra van het TIG apparaat. De sense-stekker op het apparaat kan losgekoppeld worden zonder dat dit de functionaliteit van het apparaat verandert.

Het SSR relay onderbreekt de spanning naar de on/off schakelaar. De stuurstroom van dit SSR schakelt ook shutoff valve.

OPTO1 wordt gebruikt om spanning na de on/off switch the detecteren.

OPTO2 wordt gebruikt om de spanning op de solenoid te detecteren die in het tig apparaat de gas toevoer naar de toorts regelt.

De tweede output wordt gebruikt om de solenoide binnen in het tig apparaat open te zetten.

De node is gebaseerd op de Black 2025 boards. Machine specific wiring:

  • SSR relay voor power; stuurstroom 12v - ook gebruikt voor de shutoff valve
  • Relay voor 220v solenoid in de machine.
  • Opto voor spanning detectie main on/off schakelaar
  • Opto voor detectie solenoid spanning (220v)
  • XGZP6847D i2c pressure sensor (0-1 MPa / 0-10 Bar)

Solenoid Wiring check valve

12V solenoid with on-current reducer

The 12V solenoid uses about 0.5 Amp/6Watt when fully engaged. This makes it relatively hot; and also is a stretch for the AC/DC power unit used. So after a high on-peak current- we reduce this to about 1/3 once engaged with a resistor. See https://www.electronicdesign.com/technologies/analog/article/21798400/whats-all-this-solenoid-driver-stuff-anyhow for details.

Solenoid Wiring torch valve

The 220 VAC torch valve is normally controlled by a relay from the N/L post the on/off switch. This has been changed to a before the switch; to allow (extra) control from the node when the device is completely powered off.

From a safety perspective this breaks the assumption that the welder is fully off if the on-off switch is off. The Solenoid itself is potentially powered if the SSR relay is powered on. And the 'N' is connected (as would the circuit be if it was normally plugged in). This is compensated by a label on the back of the machine with a warning; with a similar label on the solenoid & its wiring.

Board jumpers and settings

Board 2

  1. Rework 1 - verwijderen ESD diodes antenne
  2. Rework 2 - omdraaien transistors programmering

Changes

  1. 0-ohm (jumpering) R109 removed; 5V of USB not connected to 5V rail.

Board 4

  1. Rework 1 - verwijderen ESD diodes antenne
  2. Rework 2 - omdraaien transistors programmering

Changes

  1. 0-ohm (jumpering) R109 removed; 5V of USB not connected to 5V rail.
  2. Een van de program-transistors is vervangen door iets willekeurigs omdat de juiste wegsprong tijdens het solderen

Jumpers:

  1. Vint, 12 volt
  2. Vint to POE
  3. Vpoe - Off
  4. Vpoe5 - Slow Start
  5. Out1 - Direct
  6. Out2 - Direct
  7. N cross connect of OPTO1

We are feeding the 3v3 via the 5 volt from the POE made by the 12 volt; this way the 3v3 stays cooler. As it does not have to do the 12->3.3 V in one step.

Special Wiring

The MOSFET 12 volt DC of OUT1 is wired to the C/NO of the relay output; so pin 14 & 15 of the big green connector carry the 12 volt and can be wired directly to the SSR and the cut-off Valve.

Connectors

Green Connector

PIN Description Use
1 CUR2 NC
2 CUR2 NC
3 OPTO 4 NC
4 OPTO 3 NC
5 OPTO 2 Voltage sense post on/off switch
6 OPTO 2 N from TIG welder, post on/off switch
7 OPTO 1 Torch/solenoid sense & output (from pin 11)
8 OPTO 1 NC - solder jumper to N of power (Pin 10)
9 L input L, connected, from plug
10 N input N, connected, from plug
11 Relay 2 NO Torch/solenoid sense & output
12 Relay 2 Common L power, from plug
13 Relay 2 NC NA
14 Relay 1 NC 12 volt DC out to SSR & cutout valve
15 Relay 1 common 12 volt out to SSR & cutout valve

Valve Wire

PIN Description
Blue, black ferrule 0 Volt
Black, Red ferrule 12 Volt

Sense Connector

PIN Inside Tig Wire Inside Node to Use
1 Black Brown Purple N opto 2,3,4 common
2 Blue Red Red Opto1 & OUT2 Solenoid sense/control; against feeding N
3 Green Blue Green Opto 2 Power sense; against common/1

Machine side is female - as to allow it to be disconnected with no dangerous voltages exposed.

Montageplaat ZP150.150.60J

ZP150 dimensions

For a 150x150 TME enclosure; main dimensions

  • 140x140
  • Holes at 120; 10mm from left/right
  • Holes at 125; 7.5mm from top/bottom
  • Self tapping /parkers for plastic - hole is 3.2mm diameter; max length 6mm.

Ontwerp overwegingen

Een alternative methode zou zijn geheel via een stroom meting te werken (een niveau voor passief aan, een niveau voor welding). En dan een extra bleed solenoid direct bij de AC node (en eventueel de check-valve weglaten). Voordeel hiervan is dat er niets in de TIG welder zelf verandert hoeft te worden - de aansluiting zou zelfs via een WCD kunnen.

Voor deze methode is niet gekozen - omdat onze stroom meting tot nu toe nogal last hebben van ruis; met name als er gelast wordt. Het is waarschijnlijk dat dit wel op te lossen is met een beter RC circuit.

Checklist node

Doel checken is

  1. Machine mag niet anders aan gaan dan met de schakelaar voorop
  2. Powercycle van de node moet geen rare situaties opleveren
  3. Spanningsonderbreking moet machine in veilige stand brengen.
  4. Timeout na X minuten moet de machine ook in veilige stand brengen.
  5. Machine mag nooit uit (of aan) gaan zonder gebruikers actie. Dus node/netwerk/etc verlies of een timeout mag niet leiden tot uitgaan of aangaan van de motor.

Stappen:

  1. Powercycle de node. Komt die terug op het netwerk ?
  2. Na powercycle; kan je de unit niet aan zetten ?
  3. Swipe, check dat de machine werkt. Zet hem uit. Onderbreek de stroom > 1 seconde en controleer dat de machine weer in de veilige stand staat.

Source code

https://github.com/MakerSpaceLeiden/AccessSystem/lib-arduino/ACNode/examples/TigWelderNode

Bill of material

Back v1.11 node board ~35
ESP32 ~3.50
Big green Connector ~1.50€
RJ45 connector ~0.10
220AC/DC 12V ~2€
Solenoid 12V ~9€
OLED display ~3.50€
Buttons x3 ~0.30€
Solid state relay, 40A ~7.82€
12v coil relay; switch 240ACV/3A free, donated to MSL
150x150 enclosure with transparant lid ~9.00€
3 pin sense cable connector 3.10€
Pressure sensor 7.00€
4 wire pressure cable & socket 0.50 €
2 wire SSR cable & socket 0.25 €
4 long bolts 0.80 €
Assorted ferrules free, from space stock
Board with capacitor/resistor for hold-current suppression free, donated to MSL

De electra kabel is 2m; de slang ruim 1m50.

History

Build late 2024