Insulation of non-liquid immersed transformers

The invention claimed is: 1. A non-liquid immersed transformer comprising: a core; a coil having a conductive winding around the core; a solid insulation inside the coil; one or more floating electrodes in the solid insulation, wherein at least a part of the conductive winding and the one or more floating electrodes form one or more capacitive elements, respectively, and the transformer comprises a capacitance metering device connected between a terminal connected to the one or more floating electrodes and a terminal connected to the part of the conductive winding, and wherein the non-liquid immersed transformer comprises a dry-type transformer. 2. The non-liquid immersed transformer according to claim 1 , comprising a plurality of floating electrodes distributed in the solid insulation, each floating electrode to form a capacitive element with a different part of the conductive winding. 3. The non-liquid immersed transformer according to claim 1 , wherein the conductive winding comprises foil turns, whereby the floating electrode is placed in the solid insulation between foil turns, whereby the capacitive element is formed between the floating electrode and the foils of the winding. 4. The non-liquid immersed transformer according to claim 1 , wherein the conductive winding comprises a disk coil formed by foil, straps or continuously transposed conductors. 5. The non-liquid immersed transformer according to claim 4 , wherein the floating electrode is placed between the solid insulation between turns of a disk of the disk coil, whereby the capacitive element is formed between the floating electrode and the turns of the conductive winding. 6. The non-liquid immersed transformer according to claim 4 , wherein the floating electrode is a floating ring placed between disks of the disk coil, whereby the capacitive element is formed between the floating ring and the disks of the conductive winding. 7. The non-liquid immersed transformer according to claim 1 , wherein the conductive winding comprises a layer-strap or a layer-CTC coil comprising layers, each layer having turns, whereby one or more capacitive elements is formed between the floating electrode and the layers and/or between the turns of the layers of the conductive winding; or the conductive winding comprises a random-wire or wire drop coil comprising circular cables, whereby the capacitive element is formed between the floating electrode and the circular cables of the conductive winding. 8. The non-liquid immersed transformer according to claim 1 , wherein the floating electrode is placed along a portion of the solid insulation. 9. The non-liquid immersed transformer according to claim 1 , comprising a dry-type transformer. 10. The non-liquid immersed transformer according to claim 1 , wherein the solid insulation comprises one of a polyester film, an epoxy resin, enamel or a meta-aramid material. 11. A method of assessing aging degree of at least a portion of a solid insulation of a dry type transformer comprising capacitive elements that include the one or more floating electrodes according to claim 1 , the method comprising measuring an electrical parameter of the capacitive element across the one or more floating electrodes and a conductive winding of the dry type transformer and calculating the aging degree as a function of the electrical parameter measurement, wherein the electrical parameter measured is complex permittivity. 12. The method according to claim 11 , further comprising: measuring a first complex permittivity of the capacitive element at a first point in time; measuring a second complex permittivity of the capacitive element at a second point in time; calculating the aging degree as a function of the first and second complex permittivity measurement. 13. The method according to claim 11 , wherein measuring an electrical parameter comprises measuring complex permittivity in a broad frequency range. 14. The method according to claim 11 , wherein measuring an electrical parameter comprises measuring complex permittivity in a low frequency range of between 0 Hz and 5 Hz. 15. The non-liquid immersed transformer according to claim 1 , wherein the one or more floating electrodes in the solid insulation is not in contact with conductive elements of the coil. 16. The non-liquid immersed transformer according to claim 1 , wherein no portion of one of the one or more floating electrodes is in contact with conductive elements of the coil. 17. The non-liquid immersed transformer according to claim 1 , wherein one of the one or more floating electrodes is in contact with the solid insulation on all sides.