Can an electric cooker just be plugged in?

Preferably, an electric cooker cannot be plugged into a standard socket. The maximum power that can be connected to a single socket is too limited for optimal operation of an electric cooker.

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  1. Can an electric cooker just be plugged in?
  2. What different types of groups do you have in a home?

    1-phase and 3-phase connections in homes

    The main connection
    A home can have a 1-phase or 3-phase main connection:
    • 1-phase, e.g. 1x25A, 1x40A or 1x63A
    • 3-phase, e.g. 3x25A, 3x35A or 3x40A

    The terminal groups
    From this main connection at the meter box, we enter the house with a number of types of terminal groups. A terminal group is an electrical chain that feeds appliances and outlets. A terminal group is electrically protected against short-circuits and overcurrents (the circuit breaker) and usually also against fault currents (with the earth leakage circuit breaker). We have the following terminal groups:
    • 1-phase, usually 16A
    • 3-phase, usually 16A
    • Cooking group connection 2x230V mostly 16A

    Main connection 1-phase 3-phase
    1-phase 230V groups x x
    3-phase 380V groups x
    2x230V Cooking group x x

    • 1-phase 230V group (P+N)
    Possible with both a 1-phase and a 3-phase main connection.
    Has a maximum load capacity of 16Ax230V= 3,680VA
    The conduit in a 1-phase group contains:
    • Phase : L (usually brown, but can also be black or grey)
    • Neutral : N (blue))
    • Earth : PE (yellow/green)
    Usually protected by a 16A circuit breaker.
    Some of these groups are protected by a common earth leakage circuit breaker. (max.4)
    Used to supply wall sockets and lighting groups.
    Used Wieland GST18 connector: GST18i3 black L, PE, N possibly GST18i3 coding grey/red and salmon pink are suitable

    • 2x230V Cooking group (2P+2N)
    Possible with both a 1-phase and a 3-phase main connection.
    Has a maximum load capacity of 2x(16Ax230V)= 7,360VA
    This is a solution found only in the Netherlands. Consists of two 1-phase groups with a common earth in 1 conduit or 5-conductor cable.
    The cable in a 2x230V cooking group contains:
    • Phase : L (usually brown)
    • Neutral : N (blue))
    • Phase : L' (usually black)
    • Neutral : N' (blue, but in a 5-conductor cable the grey wire is often used)
    • Earth : PE (yellow/green)
    Protected with a so-called cooking group circuit breaker. 2 switched 1-phase circuit breakers that switch off simultaneously using a bridging clamp.
    Used Wieland GST18 connector: GST18i5 green: 1: L1, brown; 2:L2, black; PE yellow/green; : 3/N N1 blue; 4: N2 grey

    • 3-phase group (3P+N)
    Only with a 3-phase main connection.
    Has a maximum load capacity of 3x(16Ax230V)= 11,040VA
    The conduit in a 3-phase group contains:
    • Phase : L1 ( usually brown)
    • Phase : L2 ( usually black)
    • Phase : L3 (usually grey)
    • Neutral : N (blue))
    • Earth : PE (yellow/green)
    The 3-phase group is usually used as a power connection to connect appliances that consume a lot of energy, such as heavy cookers, a jacuzzi or EV charging stations.
    Protected by a 3-phase circuit breaker
    Used Wieland GST18 connector: GST18i5 black: 1: brown, 2: black, 3: grey, N: blue, PE: yellow/green. Optionally, GST18i5 coding grey/red can also be used.

    In a 3-phase group, when the phases are all under maximum load, normally no current runs through the neutral, hence the name. This is because the return currents do not pass through the neutral but through the phases themselves. With unequal loads, a maximum of the rated phase current (16A) can flow through the neutral, which is why, although there is much more power available in the group, the neutral core is as thick as the phases.
    The current through the neutral must be prevented from becoming greater than the rated phase current due to either harmonic distortions (due to certain loads such as switched-mode power supplies) or strong capacitive or inductive loads on one of the phases that may cause a phase shift.

    It is also possible to split the 3-phase group into 3 1-phase groups only after the meter box.
    With conventional residential installations, this is not often done, but in pluggable installations in both residential and non-residential buildings, it is an interesting option to save time, space and material, and have less copper losses in the installation.
    This is used, for example, in kitchens where a lot of power is needed. A 3-phase group with a 5-core cable is then routed to the kitchen which is split there into 3 single phases with 3-core cables. In a pluggable installation, this is done with a 3-phase splitter which is fed with a 5-core 3-phase GST18i5 2½mm² cable and from which 3 sections of 3-core GST18i3 2½mm² cables are tapped.
    If the 1-phase lines are as thick as the 3-phase line, i.e. normally at least 2½mm², there is no need to install additional protection at the junction point.

    Many cookers can be connected in different ways:
    • With a cooking group (2P+2N)
    • With a 3-phase group (3P+N)
    • With 2 phases from a 3-phase group (2P+N). The 3rd phase can then be used to connect the separate oven, for example.
    See also our FAQs on cooker connections for this.

    The maximum current through the Neutral in a 16A protection system
    • In a 16A 1-phase group (P+N), the current through L phase is equal to that through Neutral N, so maximum 16A
    • In a 2x230V cooking group (2P+2N), the current through each L phase is equal to that through the corresponding Neutral N, so maximum of 16A
    • In a 3-phase group (3P+N), the current through Neutral is ideally 0A, but in the extreme case it is a maximum of 16A.

    The above refers to:
    • P for phase is the same as the L of Live
    • N for Neutral
    • PE for Protective Earth or Earth


    For an explanation of 3-phase systems see also https://en.wikipedia.org/wiki/Mathematics_of_three-phase_electric_power

  3. What do I need to do to connect an electric cooker?

    If you are not an experienced installer, consult one. Connecting an electric cooker is not a simple job that can be done without expert knowledge.

  4. Can you replace an electric cooker 1-to-1?

    If you are replacing an electric cooker, get proper advice on whether the connection of the new appliance matches the connection of the old one. There are different types of electric cookers with different power ratings and different connection requirements.
    Nowadays, cookers can also be electronically adjusted to the available connection.

  5. Can an electric cooker be connected to 1-phase?

    This depends on the cooker. Consult the cooker’s description and get advice from the seller.
    There are many types of electric cookers. Several of these can be connected to either 1, 2 or 3 phases. After connection, the device can show the number of phases it is connected to and the fuse with which the respective phases are protected.

  6. What capacity can I connect?


    1 x 230V x 16Amp 3,7 kW
    1 x 230V x 25Amp 5,8 kW

    3 x 230V x 16Amp 11 kW
    3 x 230V x 25Amp 17,2 kW

  7. What special connection do you need for an electric cooker?

    This was traditionally solved with a Perilex socket and plug. Depending on the power of the cooker, you will need a 2-group or 3-phase Perilex connection.

  8. Is a Perilex socket the only solution?

    No, nowadays there are other pluggable solutions such as the various GST18® solutions from Wieland. The 3-phase 11KW kitchen splitter is a flexible solution that suits modern kitchens. No complicated cabling, simply pluggable with GST18i3® – GST18i5®

  9. What should I look out for when modifying or working on an installation?

    Never work on a live electrical installation. Always first switch off the group or groups you will be working on. And make sure the groups cannot be switched on while working.
    Before starting any work, check that the correct group is switched off and the power is actually off.

  10. Do you need an extra group for electric cooking?

    For many induction hobs, a 2-phase ‘cooking group’ connection is sufficient, but for a hob with 5 or more cooking zones or with downdraft extraction, you need a 3-phase connection.

  11. How many groups do you need for electric cooking?

    An induction hob requires a special group in the meter cupboard consisting of two linked groups, or the so-called ‘cooking group’. For very large induction hobs, you even need a 3-phase connection. If you do not have these groups, an installer can look at what is needed to create the groups.

  12. Why use a ceramic hob?

    Safety. Ceramic hobs are safer than cooking with gas, but the ceramic hob always heats up when switched on, whether there is a pan on it or not. An induction hob heats only the pan that is on it.

  13. How does an induction hob work?

    In an induction hob, there are electric coils that generate a magnetic field under the pan. This causes an eddy current to pass through the pan, which is converted into heat by the resistance of the pan’s base. In the process, heat is also released through magnetic hysteresis.

  14. Do you need power current for an induction hob?

    With a ceramic or induction cooker, you always need a 3-phase connection. The colloquial term for this type of connection is ‘power current’. In the meter box, you can recognise this connection by a completely separate power cooking group.

  15. How do I know if I have a cooking group or a 3-phase connection?

    This connector does not have the usual two openings for a plug, but contains four openings. A Perilex connection can be used for both the 2x16A cooking group and the 3-phase group with 3x16A.
    Another method is the Wieland GST18i5® connector. Green for a cooking group and black for 3-phase.

  16. What types of electric cookers are there?

    - Traditional electric hobs heat a cast-iron plate
    - Ceramic cooking heats a ceramic plate
    - Inductive cooking heats the pan through magnetism