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Comparison Kaiser MIG/MAG-265 vs Kaiser MIG-250

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Kaiser MIG/MAG-265
Kaiser MIG-250
Kaiser MIG/MAG-265Kaiser MIG-250
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Main
Wide range of welding current adjustment. Digital mini display. Removable eurosleeve.
Typesemi-automatic invertersemi-automatic inverter
Welding type
MMA
MIG/MAG
MMA
MIG/MAG
Specs
Welding currentDCDC
Input voltage230 V230 V
Power consumption6.5 kW8 kW
Open circuit voltage62 V
Min. welding current30 А10 А
Max. welding current265 А230 А
Max. welding current (duty cycle 100%)200 А
Duty cycle60 %60 %
Max. electrode size5 mm5 mm
Minimum wire diameter0.6 mm0.6 mm
Max. wire diameter1 mm1 mm
More features
digital display
digital display
Coil locationinternalinternal
Detachable welding cable (MIG/MAG)removableremovable
General
Protection class (IP)2121
Insulation classHH
Torch cable3 m
Dimensions (HxWxD)430x280x670 mm
Weight13 kg13 kg
Added to E-Catalognovember 2017november 2015

Power consumption

The maximum power consumed by the welding machine during operation, expressed in kilowatts (kW), that is, thousands of watts. In addition, the designation in kilovolt-amperes (kVA) can be used, see below for it.

The higher the power consumption, the more powerful the current the device is capable of delivering and the better it is suitable for working with thick parts. For different materials of different thicknesses, there are recommendations for current strength, they can be clarified in specialized sources. Knowing these recommendations and the open circuit voltage (see below) for the selected type of welding, it is possible to calculate the minimum required power of the welding machine using special formulas. It is also worth considering that high power creates corresponding loads on the wiring and may require connection directly to the shield.

As for the difference between watts and volt-amperes, the physical meaning of both units is the same — current times voltage. However, they represent different parameters. In volt-amperes, the total power consumption is indicated — both active (going to do work and heat individual parts) and reactive (going to losses in coils and capacitors). This value is more convenient to use to calculate the load on the power grid. In watts, only active power is recorded; according to these numbers, it is convenient to calculate the practical capabilities of the welding machine.

Open circuit voltage

The voltage supplied by the welding machine to the electrodes. As the name suggests, it is measured without load — i.e. when the electrodes are disconnected and no current flows between them. This is due to the fact that at a high current strength characteristic of electric welding, the actual voltage on the electrodes drops sharply, and this does not make it possible to adequately assess the characteristics of the welding machine.

Depending on the characteristics of the machine (see "Type") and the type of work (see "Type of welding"), different open circuit voltages are used. For example, for welding transformers, this parameter is about 45 – 55 V (although there are higher voltage models), for inverters it can reach 90 V, and for semi-automatic MIG / MAG welding, voltages above 40 V are usually not required. Also, the optimal values \u200b\u200bdepend on type of electrodes used. You can find more detailed information in special sources; here we note that the higher the open-circuit voltage, the easier it is usually to strike the arc and the more stable the discharge itself.

Also note that for devices with the VRD function (see "Advanced"), this parameter indicates the standard voltage, without reduction through VRD.

Min. welding current

The smallest current that the device is able to supply through the electrodes during operation. For different materials, different thicknesses of the parts to be welded and different types of welding itself, the optimal welding current will be different; there are special tables that allow you to determine this value. The general rule is that a high current is far from always useful: it gives a rougher seam; when working with thin materials, it is possible to melt through the junction instead of connecting the parts, not to mention excessive energy consumption. Therefore, if you have to work with parts of small thickness (2-3 mm), before choosing a welding machine, it makes sense to make sure that it is capable of delivering the desired current without “busting”.

Max. welding current

The highest current that the welding machine is capable of delivering through the electrodes during operation. In general, the higher this indicator, the thicker the electrodes the device can use and the greater the thickness of the parts with which it can work. Of course, it does not always make sense to chase high currents — they are more likely to damage thin parts. However, if you have to deal with large-scale work and a large thickness of the materials to be welded, you simply cannot do without a device with the appropriate characteristics. Optimum welding currents depending on materials, type of work (see "Type of welding"), type of electrodes, etc. can be specified in special tables. As for specific values, in the most “weak” models, the maximum current does not even reach 100 A, in the most powerful ones it can exceed 225 A and even 250 A.

Max. welding current (duty cycle 100%)

The highest welding current at which the machine is able to operate with a duty cycle of 100%.

See below for more information on the frequency of inclusion (PV). Here we recall that “100% duty cycle” means continuous operation, without shutdowns for cooling. Thus, the maximum welding current at 100% duty cycle is the highest current at which the machine can be used without interruption. Usually, this current is much lower than the maximum.

Torch cable

The length of the torch cable supplied with the machine.

The term "torch" is relevant for welding such as TIG (in argon, non-consumable electrode) or MIG / MAG (partially automated welding in an inert (MIG) or active (MAG) gas) - this is what the working nozzle for such welding is called. And the longer the wire with which the burner is connected to the device, the more freedom the welder has in moving, the farther he can go without moving the device itself. On the other hand, excessively long cables create problems in storage and transportation, and often during operation (you need to look for a place where to place the excess wire). Therefore, when choosing, you should proceed from what is more important for you: the ability to move away from the device or the overall compactness. As for specific length options, they usually range from 2 to 5 meters.
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