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angela03Sep 13, 2025
Why does my Jasic Welding System show overheat error?
- TTheresa BakerSep 13, 2025
If the Jasic Welding System is overheating, ensure proper airflow around the machine. If the cooling fan is not running, repair or replace it.
Why does my Jasic Welding System show overheat error?
If the Jasic Welding System is overheating, ensure proper airflow around the machine. If the cooling fan is not running, repair or replace it.
Why is there no gas flow when I depress the MIG torch trigger switch on my Jasic MIG?
If there's no gas flow when you press the MIG torch trigger switch, consider these possibilities: * The gas cylinder might be empty, so replace it. * The gas regulator might be turned off; turn it on. * The gas hose could be blocked or cut; inspect and replace it if necessary. * The torch trigger switch lead might be disconnected or faulty; reconnect or replace it.
What to do if the fault LED is ON and the fan is running on my Jasic Welding System?
If the fault LED is on and the fan is running, it could be due to: The machine is under over-heating protection status. Allow the machine to cool; it can recover automatically. Also, check incoming mains supply to ensure it is within 230V +/- 15%.
Why does the Jasic MIG overheat LED light up?
The overheat LED might light up because of insufficient cooling air. In this case, let the machine cool, and it will automatically start again. Another reason may be that the cooling fan is not running, check and repair the cooling fan.
What does error code ‘Err 1’ mean on Jasic Welding System?
If the Jasic Welding System displays the error code ‘Err 1’, it indicates that the mains input voltage is too low. Check the mains supply to ensure it meets the required voltage.
What to do if wire feeder does not work with Jasic MIG Welding System?
If there is output current when pushing the torch trigger to feed gas, but the wire feeder does not work with your Jasic Welding System, the wire feeder may be clogged. Unclog it.
Why is there no response when pushing the torch trigger on my Jasic MIG Welding System?
If there is no response when pushing the torch trigger on your Jasic Welding System and the alarm indicator does not illuminate, the torch trigger may have failed. Repair or replace the welding torch.
Why the fan does not work during welding with Jasic Welding System?
If the fan isn't working during welding with your Jasic Welding System, ensure the power cord for the fan is securely connected. If it is, auxiliary power may have failed, and you should ask professionals to check.
Why is the welding current unstable in my Jasic Welding System?
Unstable welding current in your Jasic Welding System can stem from several causes. The wire feeder may be failing, or the control PCB or wire feeding power PCB inside the machine could be faulty, in which case you should repair or replace it. Check the pressure arm on the wire feeder and adjust it properly. Ensure the drive roll matches the wire size being used. A badly worn contact tip or wire-feeding tube on the welding torch can also cause this issue, so replace them if necessary. Finally, using a poor-quality electrode can lead to instability, so switch to a good quality electrode.
What causes excessive spatter in MMA welding with my Jasic MIG Welding System?
Excessive spatter in MMA welding can be caused by incorrect output polarity connection. Exchange the polarity.
General| Brand | Jasic |
|---|---|
| Model | MIG SERIES |
| Category | Welding System |
| Language | English |
Safety precautions for electrical connections and operation.
Guidelines for safe operation of welding equipment.
Essential PPE for welding to protect against hazards.
A guide for selecting appropriate lens shades for welding.
Precautions and health risks associated with welding fumes.
Measures to prevent fire and explosion during welding.
Ensuring a safe and suitable environment for operation.
Safety measures concerning moving components of the machine.
Understanding potential hazards from magnetic fields.
Safe procedures for handling gas cylinders and regulators.
Electromagnetic compatibility and power supply declarations.
Information on materials used and proper disposal methods.
Highlights the key features and capabilities of the MIG 200CS model.
Identification of controls on the front panel.
Identification of controls and connections on the rear panel.
Identification of controls on the side panel.
Detailed explanation of each control on the front panel.
Explanation of the 7-position welding mode selector switch.
Procedure for adjusting system parameters.
Unpacking and site selection procedures.
Connecting the machine to the power supply.
Connecting polarity and MMA setup details.
Connecting the machine for MIG welding.
Connecting the machine for gasless MIG welding.
Explanation of the MMA (Stick) welding process.
Recommended amperage settings for MMA electrodes.
Explanation of the MIG/MAG welding process.
Procedure for performing gasless MIG welding.
Guide for selecting MIG wire and setting parameters.
Explanation of the TIG welding process.
Recommended amperage settings for TIG welding.
Basic guidance and tips for novice MMA welders.
Guidance on optimal body and workpiece positioning.
Advantages and characteristics of the MMA welding process.
Practical advice and setup guidance for MMA welding.
Common joint types used in MMA welding.
Methods for initiating the MMA welding arc.
Correct angles and placement for the electrode.
Specific technique for performing fillet welds.
Techniques for manipulating the electrode during welding.
Criteria for identifying good and poor weld beads.
Common MMA welding defects and their prevention methods.
Basic guidance and tips for novice MIG/MAG welders.
Advantages and characteristics of MIG/MAG welding.
Guidance on optimal body and workpiece positioning.
History and overview of the MIG welding process.
Current and voltage ranges for various wire sizes.
Explanation of the main controls for MIG welding.
Understanding wire feed speed and its effect on current.
Importance and effect of voltage setting in MIG welding.
Explanation of the burn back control feature.
Practical tips for improving MIG/MAG welding performance.
Common MIG welding defects and their prevention methods.
Available configurations for the MIG welding torch.
Key consumable parts including liners and contact tips.
Other torch-related consumable parts.
Explanation of Direct Current welding polarity.
Recommended techniques for TIG welding.
Amperage settings guide for TIG welding.
Detailed breakdown of TIG torch parts and their functions.
Types, benefits, and preparation of TIG electrodes.
Procedure for preparing and grinding TIG electrodes.
Information on filler wires and shielding gases.
Method for initiating the TIG arc using lift start.
Primary consumable parts for the TIG torch.
Details on gas lens bodies, cups, and ceramic cups.
Other torch-related consumable parts.
Common TIG welding defects and their prevention methods.
Routine daily checks for the welding machine.
Periodic monthly checks and cleaning procedures.
Annual service and safety check requirements.
Common faults, their descriptions, and possible causes.
Regulations for waste electrical and electronic equipment disposal.
Confirmation of compliance with restricted substances directive.
Available MIG and TIG torch options.
Cable sets, safety helmets, and trolleys.
Parts and accessories for wire feeding systems.
