Weld WINDING, REACTOR, and Range Switch

E-4	THEORY OF OPERATION	E-4
	FIGURE E.4 – WELD WINDING, REACTOR, AND RANGE SWITCH

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MECHANICAL

ROTATION

STARTER ENGINE

FLYWHEEL

ALTERNATOR

IDLER

SOLENOID

BATTERY

OUTPUT

CONTROL

RANGE

SWITCH

	AC
	OUTPUT	CHOKE	POSITIVE
REACTOR	AC BRIDGE		TERMINAL
REACTOR
			NEGATIVE
			TERMINAL

STATOR

ROTOR

SLIPROTOR

RINGS

STATOR

TOROID

FIELD

CAPACITOR

115 & 230VAC

RECEPTACLES

PRINTED CIRCUIT

BOARD

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The stator weld winding is connected to the reactor and range switch. The inductance in the reactor offers an impedance to current flow. The reactor coil is tapped at various points. As the range switch is rotated, dif- ferent amounts of reactor coil are brought into the cur- rent path. As more turns of reactor are brought into the circuit, the more impedance there is to current flow. Simply stated, the more reactor in the circuit, the lower the welding current.

OUTPUT BRIDGE, CHOKE, AND OUTPUT TERMINALS

The AC voltage developed in the stator weld winding is delivered, through the reactor and range switch, to the output bridge. The DC output current path is from the Output Bridge, where the AC voltage is rectified to a DC voltage, and then through the choke, where the DC output is filtered and on to the Output Terminals.

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NOTE: Unshaded areas of Block Logic Diagram are the subject of discussion

EAGLE™ 10,000

SVM192-A specifications

Lincoln Electric's SVM192-A is a standout model in the sphere of welding machines, renowned for its advanced technology and versatility, making it a preferred choice among welding professionals and industrial applications. This single-phase inverter-based machine balances performance and portability, providing users with a reliable solution for a variety of welding tasks.

One of the key features of the SVM192-A is its capacity to perform multiple welding processes. It supports MIG, TIG, and stick welding, which allows users to switch between different techniques depending on the project requirements. This multi-functionality enhances the machine's utility, making it viable for various applications ranging from home projects to professional fabrication works.

The SVM192-A is equipped with Lincoln Electric’s proprietary technologies, including the advanced inverter technology, which ensures high efficiency and power output while maintaining a compact size. This inverter technology not only improves arc stability but also reduces power consumption and heat generation, making it a more eco-friendly option.

Key characteristics of the SVM192-A include a user-friendly digital display that provides clear settings for amperage, voltage, and other parameters, enabling precise control during welding. The machine also features a robust construction, designed to withstand tough working environments, ensuring longevity and minimal downtime.

Moreover, the SVM192-A incorporates safety features designed to protect the user and the machine, including overcurrent and thermal overload protection. This prioritization of safety ensures a worry-free operation, allowing welders to focus on their craft without the distraction of potential hazards.

Portability is another significant advantage of the SVM192-A. Weighing in at a lightweight design, it is easy to transport, making it ideal for mobile operations or jobs that require moving the equipment frequently.

In summary, the Lincoln Electric SVM192-A embodies versatility, efficiency, and durability, making it an exceptional choice for both novice and experienced welders. Its ability to handle multiple welding processes, combined with advanced technologies and user-friendly features, positions it as a top contender in the welding equipment market, suitable for a wide range of applications in various sectors.

THEORY OF OPERATION

FIGURE E.4 – WELD WINDING, REACTOR, AND RANGE SWITCH