Tweco 400 Ultra-Cut(May 2014) User Manual

ULTRA-CUT 100 XT/200 XT/300 XT/400 XT

Manual 0-5302

APPENDIX

A-85

Coolant flow is correct but system doesn’t detect it due to defective components:

• Defective or disconnected FS1 flow switch.
• Relay board.
• CCM.

Flow Switch FS1 disconnected – FS1 comes with wire about 1 ft. long and a connector that connects to a 3 wire harness.

This could be disconnected at either end, J74 or J5 on the relay board.

Defective FS1– The flow switch, normally open, closes when flow through it exceeds 0.75 GPM, could be open. Easiest place

to measure the switch is at the J5 harness connector that plugs into the Pilot board. Assuming you have previously deter-

mined flow is sufficient, disconnect J5 from the Pilot board, start the unit so the coolant is flowing and measure continuity

between the 2 pins of J5.

• If there is no continuity either the switch is open or the harness between J5 and J74 at FS1 is open.
• If there is continuity between the J5 pins with sufficient coolant flow then either relay board or the CCM is faulty.
• Relay board
• CCM

405

Low Coolant Level Warning

If the coolant level becomes low while cutting it is not necessary to immediately stop the cut as there is still enough coolant

to continue so we display E405 as a warning. Once the cut stops if the coolant is still low the display changes to E401 and

prevents starting another cut. Refer to the section for code 401 for troubleshooting.

406

Coolant Flow Low Warning

Ultra-Cut XT units, in addition to a coolant flow switch, include a turbine flow sensor FL1, referred to in the plumbing diagram

as a “bubble sensor”, with a pulse output that accurately measures coolant flow and in addition can detect the presence of gas

bubbles in the coolant. Gas bubbles from leaking seals in the torch or hose fittings have been proven to reduce consumable

life. This code is a warning, it does not prevent cutting but if it persists the cause should be investigated.

407

Coolant Overheated due to High Ambient

As described in the section for codes 259-264 the CCM measures the ambient temperature using sensor TS2 and, like with

the inverters, if the coolant is over temperature we first check the ambient and if it is above 40 deg C we attribute the cause

of the coolant over temperature to high ambient and of course the solution is to lower the ambient or reduce the duty cycle.

The other possibility is the ambient measuring circuit is defective and the coolant is overheated. In that case you would

have to go to the section for code 403 to find the cause of the coolant overheating and go to section for codes 259-264 to

determine what is wrong with the TS2 circuit.

The 5 Group relates to CANBUS (Fiber optic) communication errors

501

CANBUS Failure to Acknowledge fault.

The CCM communicates with the gas controls (except GCM 1000 XT) over a fiber-optic cable using the CANBUS protocol. The

CCM is looking for a signal from the gas control (GCM 2010 or DMC) over the fiber-optic link. No signal has been detected.

Communication with the DPC which is relayed through the DMC sets a different code, 301, if there is a problem with it.

Possible causes:

• Gas control is GCM 1000 XT (Auto-Cut 300XT) which has no fiber-optic, with Basic ID problem.
• CANBUS / Fiber-optic problem to either the GCM 2010 or the DMC (part of DFC 3000).
• Control Cable to DMC or GCM 2010 defective.
• Gas control (DMC or GCM 2010) main PCB blown fuse or defective.
• DMC power supply PCB blown fuse or defective.
• CCM defective.