Schneider Three-Phase Differential Switch
2P 25A 10mA
- Número de polos: 2P
- Frecuencia de red: 50/60 Hz
- Profundidad: 73.5 mm
- Anchura: 36 mm
- Altura: 91 mm
2P 40A 300mA
- Intensidad nominal (In) 25 A
- Sensibilidad ante fugas a tierra 300 mA
- Intensidad de cortocircuito condicional 10 kA
2P 40A 500mA
- Número de polos: 2P
- Frecuencia de red: 50/60 Hz
- Profundidad: 73.5 mm
- Anchura: 36 mm
- Altura: 91 mm
2P 40A 30mA
- Sensibilidad ante fugas a tierra 30 mA
- Intensidad de cortocircuito condicional 10 kA
- Frecuencia de red 50/60 Hz
2P 63A 300mA
- Intensidad nominal (In) 63 A
- Sensibilidad ante fugas a tierra 300 mA
- Intensidad de cortocircuito condicional 10 kA
2P 63A 500mA
- Máxima seguridad de funcionamiento garantizada incluso en los entornos más exigentes
- Dispone del nivel de protección más elevado del mercado gracias al concepto VisiSafe y al doble aislamiento Clase 2 de la parte frontal del aparato
- Sistema Visitrip para la localización rápida del defecto y reducir al máximo el tiempo de inactividad de la instalación
- Previene los disparos intempestivos
- Utilizado en el sector doméstico, terciario e industrial
2P 63A 30mA
- Intensidad nominal (In) 63 A
- Sensibilidad ante fugas a tierra 30 mA
- Intensidad de cortocircuito condicional 10 kA
2P 80A 300mA
- Número de polos: 2P
- Frecuencia de red: 50/60 Hz
- Profundidad: 73.5 mm
- Anchura: 36 mm
- Altura: 91 mm
2P 80A 30mA
- Número de polos: 2P
- Frecuencia de red: 50/60 Hz
- Profundidad: 73.5 mm
- Anchura: 36 mm
- Altura: 91 mm
2P 100A 300mA
- Número de polos: 2P
- Frecuencia de red: 50/60 Hz
- Profundidad: 73.5 mm
- Anchura: 36 mm
- Altura: 91 mm
4P 25A 300mA
- Número de polos: 4P
- Frecuencia de red: 50/60 Hz
- Profundidad: 73.5 mm
- Anchura: 72 mm
- Altura: 91 mm
4P 25A 500mA
- Número de polos: 4P
- Frecuencia de red: 50/60 Hz
- Profundidad: 73.5 mm
- Anchura: 72 mm
- Altura: 91 mm
4P 25A 30mA
- Número de polos: 4P
- Frecuencia de red: 50/60 Hz
- Profundidad: 73.5 mm
- Anchura: 72 mm
- Altura: 91 mm
4P 40A 300mA
- Protección contra fugas a tierra
- Número de polos 4P
- Gama Acti 9
4P 40A 500mA
- Número de polos: 4P
- Frecuencia de red: 50/60 Hz
- Profundidad: 73.5 mm
- Anchura: 72 mm
- Altura: 91 mm
4P 40A 30mA
- Protección contra fugas a tierra
- Número de polos 4P
- Gama Acti 9
4P 63A 300mA
- Número de polos: 4P
- Frecuencia de red: 50/60 Hz
- Profundidad: 73.5 mm
- Anchura: 72 mm
- Altura: 91 mm
4P 63A 500mA
- Protección contra fugas a tierra
- Número de polos 4P
- Gama Acti 9
4P 63A 30mA
- Protección contra fugas a tierra
- Número de polos 4P
- Gama Acti 9
We present the full range of Schneider Three-Phase Differential Switches, you can search for them by category, characteristic, operation, amperage, type, price. All categories of our specialized store show switches that you can use in your facilities to protect your equipment effectively and safely.
Price of Schneider Three-Phase Differential Switches
Here you will find the best prices on the market since combined with the quality you will be able to acquire a totally professional durable product.
When looking for the right type of switch for what you need you will notice that we have a catalog full of all the products you need.
Why you need to install Schneider Three-Phase RCDs
The specific operation that these devices present are very useful. It is impossible to think of a home or company that does not have these devices installed, since they would always be at the expense of damage to electronic devices without proper protection.
Characteristics of Schneider Three-Phase Differential Switches
The Schneider Three-Phase RCCB is a special electromechanical switch that, thanks to its internal devices, has the ability to detect the difference between the current absorbed by a consumer device and the return current. When this difference exceeds a value (30 mA), the device interrupts the circuit, cutting off the current supply to the entire installation.
The Schneider Three-Phase RCCB is an electromechanical device, that is, its operation involves both electrical and mechanical energy, which is used as an automatic protection system.
This is installed in any electrical installation that has contact with people and its purpose is to protect people from any electrocution they may suffer.
How a Schneider Three-Phase RCD works
To understand how a Schneider Three-Phase Differential Switch works, you must first know how an electrical circuit works. If we have a circuit where a current intensity enters, it runs through different loads that can be the electrical elements of the home, the intensity of the electrical current that leaves the circuit is the same as that which entered.
Parts of a Schneider Three-Phase RCD
The oroid part: Central core of the phase, neutral and residual current coils.
Phase coil: It is the coil through which the incoming current passes to the home to generate the first magnetic field.
Neutral coil: It is where the outgoing current of the home circulates to generate the magnetic field that is equal to that generated by the phase
coil. Residual current coil: It is the coil that generates current in the event of a magnetic field. This residual current is the one that warns that there is a difference between the incoming current and the outgoing current.
Solenoid:It contains a coil through which the residual current passes. If this current exists, it means that the magnetic fields were not canceled, so the input current is different from the output current. This residual current generates a magnetic field that attracts the side of the solenoid, generating a movement that causes the circuit to open.
Other switches equal to the IDs that you can buy in our store:
We present the entire range of Schneider Three-Phase Differential Switches, you can search for your Electric by category, characteristic, operation, amperage, type, price. All categories of our specialized store show switches that you can use in your facilities to protect your equipment effectively and safely.
Price of Schneider Three-Phase Differential Switches
Here you will find the best prices on the market since combined with the quality you will be able to acquire a totally professional durable product.
When looking for the right type of switch for what you need you will notice that we have a catalog full of all the products you need.
Why do you need to install the RCDs
The specific operation that these devices present are very useful. It is impossible to think of a home or company that does not have these devices installed, since they would always be at the expense of damage to electronic devices without proper protection.
Characteristics of Schneider Three-Phase Differential Switches
The differential switch is a special electromechanical switch that, thanks to its internal devices, has the ability to detect the difference between the current absorbed by a consumer device and the return current. When this difference exceeds a value (in Electrical 30 mA), the device interrupts the circuit, cutting off the current supply to the entire installation.
The Schneider Three-Phase Differential Switch is an electromechanical device, that is, its operation involves both electrical and mechanical energy, which is used as an automatic protection system.
This is installed in any electrical installation that has contact with people and its purpose is to protect people from any electrocution they may suffer.
How a Schneider Three-Phase RCD works
To understand how a Schneider Three-Phase Differential Switch works, you must first know how an electrical circuit works. If we have a circuit where a current intensity enters, it runs through different loads that can be the electrical elements of the home, the intensity of the electrical current that leaves the circuit is the same as that which entered.
Parts of a Schneider Three-Phase RCD
The parts of a differential switch are as follows:
Toroid: Central core of the phase, neutral and residual current coils.
Phase coil: It is the coil through which the incoming current passes to the home to generate the first magnetic field.
Neutral coil: It is where the outgoing current of the home circulates to generate the magnetic field that is equal to that generated by the phase
coil. Residual current coil: It is the coil that generates current in the event of a magnetic field. This residual current is the one that warns that there is a difference between the incoming current and the outgoing current.
Solenoid:It contains a coil through which the residual current passes. If this current exists, it means that the magnetic fields were not canceled, so the input current is different from the output current. This residual current generates a magnetic field that attracts the side of the solenoid, generating a movement that causes the circuit to open.
Other switches equal to the IDs that you can buy in our store:
Other categories:
Última actualización el 2024-04-28 / Enlaces de afiliados / Imágenes de la API para Afiliados