Lincoln Electric SVM160-B guide

B-7	OPERATION
		B-7

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Arc Control (See Table B.2)

There are no specific unit values offered because the setting of this feature largely depends upon operator preference. Arc Control has a different effect on the character of the arc depending upon the welding process applied.

In SMAW (STICK mode), arc control adjusts the arc force. It can be set to the lower range for a soft and less penetrating arc characteristic (negative numeric values) or to the higher range (positive numeric values) for a crisp and more pene- trating arc. Normally, when welding with cellulosic types of electrodes (E6010, E7010, E6011), a higher energy arc is required to maintain arc stability. This is usually indicated when the electrode sticks to the work-piece or when the arc pops-out during manipulative technique. For low hydrogen types of electrodes (E7018, E8018, E9018, etc.) a softer arc is usually desirable and the lower end of the Arc Control suits these types of electrodes. In either case the arc con- trol is available to increase or decrease the energy level delivered to the arc.

In GMAW-S, the short-circuiting mode of metal transfer, the Arc Control features the ability to increase or decrease the energy level at the arc. Setting the arc control from 1 to 10 decreases energy, and setting the Arc Control from 0 to –10 increases the energy delivered to the arc.

Solid carbon steel electrodes in a range from .025"- .045" (.6

mm– 1.1 mm) are nominally used, and the shielding gas blend for GMAW-S is usually 100% carbon dioxide or a blend of argon and carbon dioxide. The Arc Control in this scenario is set to control the droplet size and more pinch is added (increasing pinch reduces energy to the arc) to achieve the "bacon frying" sound associated with this mode of metal transfer.

Carbon steel electrodes employed in GMAW-S usually per- form best when the droplet size is regulated by pinch to reduce the droplet size transferred with each short-circuit event.

When welding with solid stainless steel types of electrodes it is usually desirable to increase the energy delivered to the arc. High percentage argon blends with a 2 % addition of oxygen or a three part shielding gas blend comprised of 90% Helium + 7.5% Argon + 2.5 % carbon dioxide are usu- ally employed. The added energy is associated, in this sce- nario, with increasing the inductance (negative numeric val- ues). By adding to the energy level the weld bead appear- ance improves – spatter levels decrease and wetting action at the toes of a fillet weld increases. The arc is softer with the higher inductance setting and the arc lends itself to faster travel speed.

In GMAW-P, the pulsed spray mode of metal transfer, the Arc Control is, once again, used to increase and decrease the focus of the energy delivered to the arc. Increasing the setting in the range of +1 to +10 results in an increase in pulsed frequency, and the effect is to narrow the arc cone and concentrate the available energy to a smaller area. Decreasing the Arc Control setting from –1 to –10 results in a reduction of pulsed frequency – the result is a broader arc cone, which creates a wider weld bead.

Important to note here is that if a component of a pulsed waveform is increased, then another must be decreased. Adding pulsed frequency through an increase in the Arc Control setting, then also results in a proportional decrease in background current. If this were not the case, then the arc would become too long, with too much energy, and the arc would be unusable.

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TABLE B.2-ARC CONTROL SETTINGS BY PROCESS

PROCESS	ARC	SETTING	APPLICATION AND
	CONTROL		RESULT
	SYNONYM
SMAW (STICK)	Arc Force	Lower (-1 to -10) for	Minus settings are soft
		low hydrogen types of	and buttery for low
		electrodes. Higher (+1	hydrogen electrodes.
		to +10) for cellulosic	Plus settings are harsh
		and other types.	and digging for other
			types of electrodes.
GMAW – S (Short	Inductance or	Setting -1 to -10 for	The minus settings
circuiting metal	Pinch Control	softer higher energy	result a more fluid
transfer		arc. Setting +1 to +10	puddle and larger
		for a crisper lower	droplet size. The lower
		energy arc.	settings reduce the
			droplet size and reduce
			energy to the arc.
GMAW – P (Pulsed	Pulsed frequency	Minus settings reduces	Wider arc cone and
spray metal transfer)	control	frequency. Plus	weld bead. Narrower
		settings increase	arc cone and narrower
		frequency.	weld bead.
Pulse – on –Pulse™	Pulsed frequency	Minus settings result in	Minus settings result in
(Aluminum Only)	array control	lower array frequency	a wider bead with more
		and the plus settings	distinct ripples. Plus
		increase the array	settings narrow the
		frequency.	resultant bead and the
			ripples are less distinct.

POWER MIG 300

SVM160-B specifications

The Lincoln Electric SVM160-B is a standout model in the realm of portable arc welders, designed specifically for light to medium-duty welding tasks. As part of Lincoln Electric’s renowned line of welding equipment, the SVM160-B combines efficiency with durability, catering to both professional welders and hobbyists alike.

One of the primary features of the SVM160-B is its lightweight and compact design. Weighing in at just around 60 pounds, it offers excellent portability, allowing users to easily transport the unit to various job sites. This mobility is enhanced by an integrated handle and a rugged construction, making it suitable for both indoor and outdoor applications.

The SVM160-B utilizes advanced inverter technology, which significantly enhances its performance capabilities. This technology not only contributes to the welder's energy efficiency but also allows for a more stable arc, reducing spatter and resulting in cleaner welds. The machine can operate on both 120V and 240V power sources, providing flexibility for users to adapt to different settings and requirements.

Among its key characteristics, the SVM160-B features a welding output range that accommodates various welding needs, allowing users to achieve welds from 20 to 160 amps. This versatility makes it ideal for welding different materials, including mild steel, stainless steel, and aluminum. Furthermore, the unit supports a range of welding processes, including MIG, stick, and TIG welding, enhancing its adaptability for various projects.

Another highlight of the SVM160-B is its user-friendly interface. The control panel is designed to facilitate ease of use, with clearly marked dials and indicators that enable quick adjustments of settings. This intuitive design ensures that both novice and experienced users can operate the machine efficiently and effectively.

Safety features are also a crucial aspect of the SVM160-B. It comes equipped with thermal overload protection, which prevents the unit from overheating during extended use. This built-in safeguard extends the welder's lifespan and enhances user safety.

In summary, the Lincoln Electric SVM160-B is a versatile, portable welder that combines advanced technology with user-friendly features, making it an excellent choice for a wide range of welding applications. Its lightweight design, inverter technology, and robust safety features make it a reliable option for both professionals and enthusiasts. Whether tackling small repairs or larger projects, the SVM160-B stands ready to deliver quality results.

Lincoln Electric SVM160-B service manual Table B.2-ARC Control Settings by Process

Models: SVM160-B

OPERATION

TOC

Arc Control (See Table B.2)

TABLE B.2-ARC CONTROL SETTINGS BY PROCESS

transfer

GMAW – P (Pulsed

(Aluminum Only)

SVM160-B specifications