Patent application number | Description | Published |
20110204033 | WELDING SYSTEM WITH TORQUE MOTOR WIRE DRIVE - A welding system for welding with wire is disclosed that includes a torque motor in a wire feeder and a pull motor in a welding torch. A wire feed speed may be set by an operator at a power supply or on a wire feeder. Based upon calibration of the pull motor in the torch, upon startup of the welding operation, signals are provided to a pull motor and the torch in an open loop manner with respect to the speed of the pull motor, while the torque motor is driven to maintain a feed force on the welding wire to ensure that the pull motor has welding wire available for feeding. No other coordination is required between the torque motor and the pull motor. | 08-25-2011 |
20110204034 | WIRE FEED SPEED REFERENCED VARIABLE FREQUENCY PULSE WELDING SYSTEM - A pulsed waveform welding operation is implemented by reference to a commanded wire feed speed set by an operator. The wire feed speed is set on a wire feeder, and a signal representative of the commanded wire feed speed is applied to a power supply. The power supply control circuitry references a look-up table in which pulsed waveform parameters are provided based upon wire feed speed. The parameters may include multiple parameters such as pulse frequency, peak current, background current, and current ramp rates. The control circuitry commands power conversion circuitry to generate the commanded waveform as a function of the commanded wire feed speed. | 08-25-2011 |
20110240620 | WELDING SYSTEM AND METHOD UTILIZING INTERNAL ETHERNET COMMUNICATIONS - A welding system and method utilizing internal Ethernet communications is provided. One welding system includes a power supply configured to generate power for welding. The power supply includes a first processing circuit for implementing a predetermined welding regime and a first Ethernet interface coupled to the first processing circuit and configured to communicate via an Ethernet protocol. The system also includes a wire feeder coupled to the power supply to receive the power from the power supply and to provide welding wire for welding. The wire feeder includes a second processing circuit for controlling operation of the wire feeder and a second Ethernet interface coupled to the second processing circuit and configured to communicate via an Ethernet protocol. The welding power supply and the wire feeder exchange welding parameter data in accordance with the Ethernet protocol via an Ethernet media cable coupled between the Ethernet interfaces. | 10-06-2011 |
20140021179 | Method and Apparatus For Providing Welding Type Power - A method and apparatus for providing welding-type power includes receiving an input that may be either a single or a three phase input voltage. Three power modules, each having a single phase boost power circuit, and an output circuit process the input power. A weld output circuit receives and combines the outputs of the three power modules. An input power distribution module connects the three power modules such that each receives a unique single phase power signal. A controller controls the three power modules and the input power distribution module. | 01-23-2014 |
20150053660 | Method and Apparatus For Providing Welding Type Power With Flux Balancing - A welding-type power supply includes a controller, a preregulator, a preregulator bus, and an output converter. The controller has a preregulator control output and an output converter control output. The controller has a converter control output connected to the control input, and a flux balancing module. The converter control output is responsive to the flux balancing module such that the flux in the transformer remains balanced. | 02-26-2015 |
20150060426 | Method and Apparatus For Providing Welding Type Power With Balanced Bus - A welding-type power supply includes a controller, bus (that can, but need not be preregulated), and an output converter. The controller has a preregulator control output and an output converter control output. The controller may receive bus feedback indicative of a plurality of bus voltages. A bus voltage balancing module in the converter includes a scaled correction module responsive to the bus feedback signal, and the converter control output is responsive to the bus voltage balancing module. The controller may receive load feedback indicative of a load output, have a bus voltage balancing module that includes a load proportional gain module responsive to the load. | 03-05-2015 |
Patent application number | Description | Published |
20080296276 | Welding-Type Power Source with Integrated Open-Circuit Voltage Controller - A welding-type system and method for operating a welding-type system is disclosed. The system includes a switched power delivery circuit connected to deliver power to output terminals and an open-circuit voltage (OCV) control circuit configured to adjust an operational state of the switched power delivery circuit. A controller is included that is configured to monitor the output terminals to identify an open circuit condition and selectively engage the OCV control circuit to adjust the operational state of the switched power delivery circuit to reduce a voltage of the output power delivered to the output terminals during the open circuit condition. | 12-04-2008 |
20100320182 | SYSTEM AND METHODS FOR EFFICIENT PROVISION OF ARC WELDING POWER SOURCE - Methods and systems for creating and controlling an AC output for welding, plasma cutting or heating are provided. One embodiment of the present disclosure achieves a desired square wave AC output and reduces the number of circuit components needed by combining components of a buck converter and a full bridge inverter. Current flow paths through a power control circuit that are generated via switching of transistors in the circuit on and off are provided. In one embodiment, a pulse width modulation leg, which controls the level of current flow through an inductor, is provided. Certain embodiments include a bidirectional buck converter that converts an unregulated DC flow to a regulated DC flow through an inductor. In one embodiment, a steering leg is provided, which controls a direction of current flow through the inductor. Additionally, an output clamp circuit, which suppresses the parasitic load inductance during polarity reversal is provided. | 12-23-2010 |
20110073569 | WELDING SYSTEM WITH POWER LINE COMMUNICATION - Various welding systems that provide communication over auxiliary or weld power lines are provided. The disclosed embodiments may include a multi-process welding power supply that is communicatively coupled to a pendant via an auxiliary conduit that facilitates the exchange of data and power between components of the welding system. In some embodiments, the pendant may also include auxiliary outlets that allow an operator to power auxiliary devices at the weld location. The disclosed embodiments further include a pendant with a wire spool and wire feeder drive circuitry that is configured to activate spooling during MIG welding. Embodiments are provided that also allow for bidirectional data communication over a power line in networked welding systems. | 03-31-2011 |
20130075380 | WELDING SYSTEM AND METHOD UTILIZING CLOUD COMPUTING AND DATA STORAGE - A welding system or an enterprise using welding systems can communicate with cloud-based resources for the provision of services and products to facilitate the welding operations. The communications may be via wired or wireless media, and may be direct, or through other components, such as enterprise networks, peripheral devices, and so forth. The cloud-based resources may provide for storage of data, particularly welding data, processing of data, welding protocols, specifications and processes, financial transactions for the purchase, licensing or use of welding-related products and services, welding training, and so forth. | 03-28-2013 |
20140131330 | SYSTEMS AND METHODS FOR EFFICIENT PROVISION OF ARC WELDING POWER SOURCE - Methods and systems for creating and controlling an AC output for welding, plasma cutting or heating are provided. One embodiment of the present disclosure achieves a desired square wave AC output and reduces the number of circuit components needed by combining components of a buck converter and a full bridge inverter. Current flow paths through a power control circuit that are generated via switching of transistors in the circuit on and off are provided. In one embodiment, a pulse width modulation leg, which controls the level of current flow through an inductor, is provided. Certain embodiments include a bidirectional buck converter that converts an unregulated DC flow to a regulated DC flow through an inductor. In one embodiment, a steering leg is provided, which controls a direction of current flow through the inductor. Additionally, an output clamp circuit, which suppresses the parasitic load inductance during polarity reversal is provided. | 05-15-2014 |