Nuestras capacidades de ensamblaje de disyuntores están diseñadas para cumplir con los más altos estándares de precisión, confiabilidad y seguridad. Los disyuntores son componentes esenciales en los sistemas eléctricos y brindan protección crítica contra sobrecargas y cortocircuitos. Con nuestros procesos de fabricación avanzados y tecnología de vanguardia, garantizamos que cada disyuntor se ensamble para brindar un rendimiento y una durabilidad consistentes en una amplia gama de aplicaciones.
Nuestra experiencia en el montaje de disyuntores abarca una variedad de industrias, desde sistemas de energía residenciales y comerciales hasta sectores industriales y energéticos. Ya sea que esté buscando una producción de gran volumen o conjuntos personalizados y especializados, Fenix es su socio de confianza para brindar soluciones de disyuntores confiables y de alta calidad que cumplan con los estándares regulatorios y de seguridad más estrictos.
Voltage (measured in volts, V) is the electrical potential difference between two points in a circuit. It represents the force that pushes electric current through a conductor. Higher voltage levels allow for the transmission of more power over long distances.
Current (measured in amperes, A) is the flow of electric charge through a conductor. It determines how much electricity is moving through a circuit and is influenced by the voltage and the resistance of the circuit.
Residential breakers are circuit breakers designed for home electrical systems to protect wiring and appliances from overcurrent and short circuits. They typically operate at 120V or 240V and are commonly found in electrical panels in houses and apartments.
Industrial breakers are heavy-duty circuit protection devices used in factories, commercial buildings, and power plants. They are designed to handle higher voltage and current levels than residential breakers, often exceeding 600V and 1000A.
High voltage breakers are circuit protection devices used in electrical transmission and distribution networks for voltages above 72.5 kV. They interrupt large electrical currents and prevent damage to infrastructure in power grids.
Medium voltage breakers protect electrical circuits in the voltage range of 1 kV to 72.5 kV. They are used in power substations, industrial plants, and commercial facilities where moderate power distribution is needed.
Low voltage breakers operate at voltages below 1 kV and are commonly found in homes, commercial buildings, and industrial control systems. They provide protection against overloads, short circuits, and electrical faults.
Breaking capacity refers to the maximum current a circuit breaker can safely interrupt without damage. It is measured in kA (kiloamperes) and determines whether the breaker can handle extreme fault conditions.
Trip mechanisms are the internal components of a circuit breaker that detect overcurrent conditions and disconnect power. Common types include:
Uses heat-sensitive elements to detect prolonged overcurrent.
Uses electromagnetic force to detect sudden surges (short circuits).
Uses sensors and microprocessors for precise tripping in industrial applications.
Smart breakers are circuit breakers with digital monitoring, remote control, and automation features. They integrate with IoT (Internet of Things) platforms, allowing users to monitor energy consumption and control power settings via smartphone apps or cloud-based systems.
An arc fault is an unintended electrical discharge between conductors, which generates heat and can lead to fires. Arc fault circuit interrupters (AFCIs) detect and mitigate these faults by shutting down the affected circuit.
Ground fault protection refers to safety mechanisms that detect unintended electrical paths to the ground and shut off power to prevent electrical shock or fires. Ground fault circuit interrupters (GFCIs) are commonly used in wet locations such as bathrooms and kitchens.
UL 489 is a U.S. safety standard for circuit breakers used in electrical panels. It ensures that breakers meet specific performance, endurance, and protection criteria for residential, commercial, and industrial applications.
UL 1077 covers supplementary protectors, which are used alongside UL 489 breakers for additional protection in equipment. These are commonly found in control panels and industrial machines.
IEC 60947-2 is an international standard for industrial circuit breakers, specifying requirements for their performance, safety, and testing procedures in medium- and high-voltage applications.
IEC 60898-1 is an international standard for low-voltage residential and commercial circuit breakers. It ensures compliance with safety and operational performance guidelines.
Contacts are the conductive components inside a breaker that connect and disconnect electrical circuits. When a breaker trips, the contacts separate to interrupt the current flow.
Conductors are materials, such as copper or aluminum, that allow electrical current to flow. They are used in wiring, busbars, and breaker terminals to transmit electricity safely and efficiently.
Housing & casings refer to the external protective enclosures of circuit breakers. These are typically made of plastic, metal, or composite materials to provide insulation, durability, and protection against environmental factors.
Aiken, SC 29801
sales@fenix-mfg.com, Estados Unidos
San Pedro De Macoris
(809) 529-4421, Dominican Republic
Fenix – USA.
2969 Wagener Road
Aiken, SC 29801
Fenix – DR
San Pedro Industrial Free Zone
San Pedro De Macorís, República Dominicana
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