Transmitting power through a wellhead using at least one toroid

The invention claimed is: 1. A through wellhead downhole signalling system for electrical signalling, in a well installation having metallic structure, between a first, downhole, location and a second location which is remote from the first location and is outside the well borehole beyond a wellhead of the well, comprising a first unit provided at the first location, a second unit provided at the second location which second unit is outside the well borehole beyond a wellhead of the well and is electrically connected to the wellhead and arranged to at least one of apply signals to and receive signals from the metallic structure via the electrical connection of the wellhead, a first magnetic material toroid provided around downhole metallic tubing of the metallic structure and located at a third location which is in the well borehole in the region of the wellhead and between and spaced from the first location and the second location, and a winding wound around the magnetic material toroid, wherein the winding is connected to a cable which runs alongside the metallic tubing for at least 100 m away from the toroid and towards the first unit; and the first unit is arranged to at least one of apply signals to and receive signals from the metallic tubing via the cable and the magnetic material toroid, those signals being able to be communicated between the metallic structure and the cable using the magnetic material toroid provided around the downhole metallic tubing of the metallic structure so as to allow signalling between the first unit at a downhole location and the second unit outside of the wellbore and beyond the wellhead using the wellhead, the metallic structure and the cable. 2. A downhole signalling system according to claim 1 in which the cable is electrically connected directly to the first unit. 3. A downhole signalling system according to claim 1 in which the metallic structure comprises a portion with two runs of metallic tubing running one within the other and forming an annulus therebetween and at least one of: the cable runs, for at least part of its length, within the annulus; and the first magnetic material toroid is located in the annulus. 4. A downhole signalling system according to claim 1 in which the electrical signals are electrical power signals and the system is arranged for transmitting electrical power from the second unit to the first unit. 5. A downhole signalling system according to claim 1 in which the first unit one of: comprises, and is located adjacent to a permanent downhole gauge. 6. A downhole signalling system according to claim 1 in which the metallic structure in the region of the first unit is not electrically continuous with the metallic structure in the region of the second unit and the cable is used to bridge an electrical discontinuity in the metallic structure. 7. A downhole signalling system according to claim 1 which comprises a second magnetic material toroid carrying a respective winding, the second toroid being provided around respective downhole metallic tubing of the metallic structure and located at a fourth location between and spaced from the first location and the third location. 8. A downhole signalling system according to claim 7 in which the cable is connected to the winding of the second magnetic material toroid. 9. A downhole signalling system according to claim 7 in which the first unit is arranged to at least one of apply signals to and receive signals from metallic structure in the region of the first unit. 10. A well installation comprising downhole metallic structure and a downhole signalling system for electrical signalling, between a first, downhole, location and a second location which is remote from the first location and is outside the well borehole beyond a wellhead of the well, comprising a first unit provided at the first location, a second unit provided at the second location which is outside the well borehole beyond a wellhead of the well, the second unit is being electrically connected to the wellhead and arranged to at least one of apply signals to and receive signals from the metallic structure via the electrical connection of the wellhead, a first magnetic material toroid provided around downhole metallic tubing of the metallic structure and located at a third location which is in the well borehole in the region of the wellhead and between and spaced from the first location and the second location, and a winding wound around the magnetic material toroid, wherein the winding is connected to a cable which runs alongside the metallic tubing for at least 100 m away from the toroid and towards the first unit; and the first unit is arranged to at least one of apply signals to and receive signals from the metallic tubing via the cable and the magnetic material toroid, those signals being able to be communicated between the metallic structure and the cable using the magnetic material toroid provided around the downhole metallic tubing of the metallic structure so as to allow signalling between the first unit at a downhole location and the second unit outside of the wellbore and beyond the wellheads using the wellhead, the metallic structure and the cable. 11. A downhole signalling system according to claim 1 in which at least one of: the number of turns of the winding, the dimensions of the winding, a frequency of the applied signals, and a modulation scheme of the applied signals is selected in order to optimise the system. 12. A downhole signalling system for electrical signalling, in a well installation having metallic structure, between a first, downhole, location and a second location which is remote from the first location, comprising a first unit provided at the first location, a second unit provided at the second location which unit is arranged to at least one of apply signals to and receive signals from the metallic structure, a first magnetic material toroid provided around downhole metallic tubing of the metallic structure and located at a third location between and spaced from the first location and the second location, and a winding wound around the magnetic material toroid, wherein the winding is connected to a cable which runs alongside the metallic tubing away from the toroid and towards the first unit and the first unit is arranged to at least one of apply signals to and receive signals from the metallic tubing via the cable and the magnetic material toroid, those signals being able to be communicated between the metallic structure and the cable using the magnetic material toroid provided around the downhole metallic tubing of the metallic structure so as to allow signalling between the first unit and the second unit using the metallic structure and the cable, wherein the downhole signalling system comprises a second magnetic material toroid carrying a respective winding, the second toroid being provided around respective downhole metallic tubing of the metallic structure and located at a fourth location between and spaced from the first location and the third location, and the cable is connected to the winding of the second magnetic material toroid so that the first and second magnetic material toroids, the respective windings and the cable form passive relay apparatus with signals being picked up from the metallic tubing by one of the toroids and reapplied to the metallic tubing by the other of the toroids, and the metallic structure comprises a portion with two runs of metallic tubing running one within the other and forming an annulus therebetween and the cable runs, for at least part of its length, within the annulus; and the first and second magnetic material tor