INSTALLATION GUIDE

Cooker Circuit Guide: Cable Size, Fuse and Wiring UK

The cooker circuit is one of the highest-current circuits in a domestic installation. This guide covers cable sizing with the diversity factor, cooker control unit requirements, running a hob and oven on the same circuit, circuit protection, and the common mistakes that lead to EICR defects.

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13 min readUpdated 2026-06-10Andrew Moore, Founder of Elec-Mate

Written and reviewed by Andrew Moore, founder of Elec-Mate, against BS 7671:2018+A4:2026, IET Guidance Note 3 and the IET On-Site Guide.

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Key Takeaways

  • 1A cooker circuit is a dedicated radial circuit from the distribution board to the cooker control unit, typically using 6mm² twin and earth cable protected by a 32A MCB or RCBO.
  • 2Diversity can be applied to cooker circuits using the IET On-Site Guide formula: first 10A at 100% plus 30% of the remainder plus 5A if the cooker control unit includes a socket outlet.
  • 3A single circuit can supply both a hob and an oven provided they are in the same room and the total load after diversity does not exceed the cable and protective device ratings.
  • 4The cooker control unit must be positioned within 2 metres of the cooker and must include a double-pole switch for isolation.
  • 5Elec-Mate's cable sizing calculator and diversity factor calculator handle the cooker circuit design calculations automatically, including correction factors and voltage drop verification.
  • 6The maximum Zs from BS 7671 Table 41.3 for a 32A Type B MCB is 1.37 ohms. On site, apply the GN3 0.80 cold-conductor factor: your loop tester reading must not exceed 1.10 ohms (1.37 × 0.80). Omitting this factor is the most common cause of incorrect EICR pass/fail decisions on cooker circuits.
  • 7BS 7671 A4:2026 introduced Reg 421.1.7, recommending arc fault detection devices (AFDDs) on AC final circuits of a fixed installation to mitigate fire risk from arc fault currents. A CCU circuit with an integral socket outlet in a domestic kitchen warrants AFDD consideration.
01 · Installation Guide

Cooker Circuit Basics

A cooker circuit is a dedicated radial circuit that runs from the distribution board (consumer unit) to a cooker control unit, which in turn supplies the cooker. It is one of the highest-current circuits in a domestic installation, and getting the cable sizing and protection right is essential for safety and compliance with BS 7671.

The standard domestic cooker circuit uses 6mm² twin and earth cable (6242Y) protected by a 32A MCB or RCBO at the distribution board. The circuit runs from the board to a cooker control unit (a double-pole switch, with or without a 13A socket outlet) mounted on the wall adjacent to the cooker. From the cooker control unit, a cable or flex connects to the cooker itself.

Unlike socket circuits, cooker circuits benefit from a diversity factor — you do not need to size the cable for the full rated current of the cooker, because not all elements run at full power simultaneously. This diversity calculation is one of the most important skills in domestic circuit design.

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02 · Installation Guide

Cable Sizing for Cooker Circuits

The cable size for a cooker circuit is determined by the design current (after diversity), the installation method (reference method), and the applicable correction factors from Appendix 4 of BS 7671.

Typical Cooker Circuit Cable Sizes

  • Standard domestic cooker (up to ~13kW) — 6mm² twin and earth, 32A MCB. Design current after diversity is typically 22A to 28A.
  • Large range cooker (13kW to 18kW) — 10mm² twin and earth, 40A or 45A MCB. Design current after diversity may exceed 32A for larger appliances.
  • Hob and oven combined — typically 6mm² on 32A MCB. The combined load of a separate hob and oven is usually lower than a freestanding cooker after diversity is applied.

Always verify the cable\'s current-carrying capacity against the actual installation conditions. A 6mm² cable clipped direct (Reference Method C) has a higher current-carrying capacity than the same cable enclosed in an insulated wall (Reference Method A). If the cable passes through loft insulation, the thermal insulation correction factor (Ci) can significantly reduce the capacity — you may need to increase to 10mm².

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03 · Installation Guide

Diversity Factor for Cooker Circuits Explained

Diversity is a design allowance that recognises that a cooker will not operate all its elements at full power simultaneously. The standard domestic cooker diversity formula from the IET On-Site Guide (Table 1A) is:

Cooker Diversity Formula

Design current = First 10A at 100% + 30% of the remainder

Add 5A if the cooker control unit includes a 13A socket outlet

Worked Example

Cooker rated at 12kW (52.2A at 230V)

First 10A at 100% = 10.0A

Remaining 42.2A at 30% = 12.7A

Subtotal = 22.7A

Add 5A for socket in cooker control unit = 27.7A

Design current = 27.7A — well within the 32A rating of a standard 6mm² cooker circuit.

This diversity calculation applies only when the cooker is the sole appliance on the circuit. If a hob and oven share the circuit, use the combined rated current of both appliances in the diversity calculation. The Elec-Mate diversity calculator handles this automatically.

04 · Installation Guide

Cooker Control Unit Requirements

The cooker control unit provides a means of local isolation for the cooker. BS 7671 requires every cooker to have a means of switching off within easy reach of the person using the cooker (BS 7671 Section 537).

  • Position — within 2 metres horizontal distance from the cooker. Must be accessible without reaching over or across the cooking surface. Standard mounting height is between 450mm and 1200mm from finished floor level.
  • Type — a 45A double-pole switch with a neon indicator. Available with or without a 13A socket outlet. If the socket is included, it must not be positioned directly above the hob.
  • Rated current — the cooker control unit must be rated for the full load of the cooker (before diversity). A 45A-rated unit is standard for domestic cookers. For large range cookers, check that the control unit rating is adequate.
  • Connection — the circuit cable terminates at the cooker control unit. A separate cable or heat-resistant flex runs from the control unit to the cooker terminal block. The connection at the cooker must be accessible for maintenance.

For built-in hobs and ovens, the cooker control unit can serve both appliances. The hob is typically hardwired via a cable to the control unit, while the oven may connect via a plug and socket or a flex outlet plate positioned behind the appliance within the cabinetry.

05 · Installation Guide

Hob and Oven on the Same Circuit

A common question is whether a separate hob and a built-in oven can share a single cooker circuit. The answer is yes, provided:

  • Both appliances are in the same room — they must be in the kitchen or cooking area served by the cooker control unit. You cannot run a circuit from the kitchen to a separate room.
  • The combined load after diversity is within the circuit rating — calculate the combined rated current of the hob and oven, then apply the diversity formula. A 7kW hob (30.4A) and a 3kW oven (13A) have a combined rating of 43.4A. After diversity: 10A + (33.4A x 0.3) = 20A design current — easily within a 32A circuit.
  • Both appliances connect through the cooker control unit — the hob is hardwired at the cooker control unit, and the oven connects via a flex outlet plate or plug and socket behind the appliance.

If the combined load after diversity exceeds 32A (which is rare for a standard domestic hob and oven), you have two options: upgrade the circuit to 45A with 10mm² cable, or install separate dedicated circuits for the hob and oven. Separate circuits are also preferred when the hob and oven are in different locations within a large kitchen or when the client specifically wants independent circuits for each appliance.

06 · Installation Guide

Circuit Protection for Cooker Circuits

The cooker circuit is protected at the distribution board by an MCB or RCBO. The requirements are:

  • MCB rating — 32A for a standard 6mm² circuit. 40A or 45A for a 10mm² circuit. The MCB rating must be equal to or greater than the design current and equal to or less than the cable's tabulated current-carrying capacity after correction factors.
  • MCB type — Type B for resistive cooker loads. Type B trips at 3 to 5 times rated current, which is suitable for heating elements.
  • RCD protection — required if the cable is concealed in a wall at less than 50 mm depth without earthed metallic covering, and also required if the cooker control unit includes a socket outlet (BS 7671 Section 411). In modern RCBO boards, this is provided automatically.
  • Disconnection time — under BS 7671 Reg 411.3.2.2/411.3.2.3, final circuits with one or more socket outlets (up to 63A) require disconnection within 0.4 seconds; circuits supplying only fixed connected equipment (no socket outlet, up to 32A) may use 5 seconds (Reg 411.3.2.3). In practice: a cooker-only circuit with no CCU socket qualifies for 5s, while a CCU with an integral 13A socket must achieve 0.4s. The maximum Zs from BS 7671 Table 41.3 for a 32A Type B MCB is 1.37 ohms. When measuring on site (cold conductors), apply the GN3 0.80 factor: the cold-measured pass limit is 1.10 ohms (1.37 × 0.80) — this is the value to compare against your loop tester reading.

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07 · Installation Guide

Arc Fault Detection Devices (AFDDs) — A4:2026 Update

BS 7671 Amendment A4:2026 introduced Regulation 421.1.7, which recommends the installation of arc fault detection devices (AFDDs) on AC final circuits of a fixed installation to mitigate the risk of fire caused by arc fault currents. The regulation is advisory (it uses “recommending” rather than “shall”) but represents current best practice and is increasingly expected by building control and fire risk assessors.

AFDD Consideration for Cooker Circuits

When does it apply? Reg 421.1.7 covers AC final circuits of a fixed installation. A cooker circuit is a final circuit, so the recommendation applies. Where the cooker control unit (CCU) includes an integral 13A socket outlet, the circuit is also a socket circuit — making the case for AFDD consideration stronger.

What does an AFDD do? It detects the high-frequency signature of series and parallel arc faults — the type of fault that a standard MCB or RCD cannot detect because the fault current may be below the trip threshold. Arcing faults in appliance flexes and wiring are a leading cause of electrical fires.

Practical installation note: AFDDs are available as combined AFDD/RCBO modules for most consumer unit formats. On a new installation or full rewire, fitting an AFDD/RCBO on the cooker circuit adds minimal cost and satisfies the A4:2026 recommendation. On an EICR, the absence of an AFDD on a cooker circuit is not itself a Code 2 defect, but the recommendation should be noted.

For further detail on AFDD requirements across domestic installations, including which circuits are most likely to benefit, see the AFDD guide.

08 · Installation Guide

Installation Method and Cable Route

The cable route for a cooker circuit typically runs from the distribution board through the building structure to the kitchen, then to the cooker control unit position. The installation method determines the cable's current-carrying capacity and must be identified using the reference methods in Appendix 4 of BS 7671.

  • Reference Method C (clipped direct) — cable clipped to a surface or on cable tray. This gives the highest current-carrying capacity for a given cable size. 6mm² twin and earth carries 47A under this method.
  • Reference Method A (enclosed in insulation) — cable in conduit in a thermally insulating wall. 6mm² carries 32A under this method. This is the most restrictive common installation method for domestic wiring.
  • Passing through insulation — if the cable passes through loft insulation or cavity wall insulation, the thermal insulation correction factor (Ci) applies. A cable surrounded by thermal insulation on all sides has Ci = 0.5, reducing its capacity by half. For 6mm², this could reduce the capacity below 32A, requiring an upgrade to 10mm².

When routing the cable, observe the safe zones defined in BS 7671 for cables concealed in walls — within 150mm of the top of the wall, within 150mm of the corner, or running horizontally or vertically from an accessory. Cables outside these zones at a depth of less than 50mm must have 30mA RCD protection or mechanical protection (such as metal capping).

09 · Installation Guide

Voltage Drop on Cooker Circuits

Voltage drop must be checked for every cooker circuit. The limit under BS 7671 is 5% of the nominal supply voltage — that is 11.5V for a 230V supply. The voltage drop depends on the cable size, the cable length, and the design current.

Voltage Drop Calculation

Voltage drop (V) = mV/A/m x Design current (A) x Cable length (m) / 1000

For 6mm² twin and earth, the mV/A/m value is 7.3 (from Appendix 4, Table 4D5, column 3).

Example: 6mm² cable, 15m run, 27.7A design current (after diversity) = 7.3 x 27.7 x 15 / 1000 = 3.03V — well within the 11.5V limit.

Voltage drop is rarely a problem on domestic cooker circuits because the cable run is usually short (under 20 metres). However, for properties where the distribution board is a long distance from the kitchen (large houses, barn conversions, outbuildings), voltage drop may dictate a larger cable size even though the current-carrying capacity of the smaller cable is adequate.

10 · Installation Guide

Common Cooker Circuit Mistakes

  • Not applying diversity. Sizing the cable for the full rated current of the cooker without diversity. This often leads to an unnecessarily large cable size and increased cost. Diversity is standard practice for domestic cooker circuits.
  • Cooker control unit too far from the cooker. The control unit must be within 2 metres of the cooker. Positioning it on the opposite side of the kitchen fails the BS 7671 requirement for accessible emergency switching.
  • Socket outlet above the hob. If the cooker control unit includes a 13A socket, it must not be directly above the hob where appliance leads could trail across the cooking surface. Position it to one side.
  • Ignoring correction factors for insulated cable routes. A 6mm² cable passing through loft insulation may have its capacity reduced below 32A. This makes the 32A MCB overprotective and could damage the cable in a sustained overload.
  • No RCD protection where required. Cables concealed in walls at less than 50mm depth without earthed metallic covering require 30mA RCD protection. This is often missed when a cooker circuit is installed without an RCBO.

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