Adjustable voltage sensor

The invention claimed is: 1. Voltage sensor for sensing an alternating current (AC) voltage of a high-voltage/medium-voltage (HV/MV) power conductor, the voltage sensor comprising a capacitive voltage divider for sensing the AC voltage, the voltage divider comprising: a high-voltage portion comprising one or more high-voltage capacitors, electrically connected in series with each other; a low-voltage portion comprising one or more low-voltage capacitors, electrically connected in series with each other between the high-voltage portion and electrical ground; a signal contact, electrically arranged between the high-voltage portion and the low-voltage portion, for providing a signal voltage, indicative of the AC voltage, wherein the low-voltage portion further comprises, for adjusting the common overall impedance of the low-voltage portion towards a desired impedance, a plurality of adjustment capacitors and a plurality of switches, wherein each switch is associated and electrically connected to one or more of the adjustment capacitors and can be brought into a connect state and into a disconnect state such that the switch in its connect state, electrically connects the adjustment capacitor(s), to which it is associated, in parallel to at least one of the one or more low-voltage capacitors; in its disconnect state, electrically disconnects at least one electrode of the adjustment capacitor(s) to which it is associated from the low-voltage capacitor(s) to which, in its connect state, it connects the associated adjustment capacitor, and wherein the overall impedance of the high-voltage portion and the overall impedance of the low-voltage portion of the voltage divider are adapted such that, by bringing one or more of the switches into their connect state, the voltage divider has, for an AC voltage of between 5 and 25 kilovolt (kV) phase-to-ground and a frequency of between 40 and 70 Hertz, a dividing ratio of 3077±0.5% or of 6154±0.5% or of 6769±0.5% or of 10 000±0.5%. 2. Voltage sensor according to claim 1 , wherein the plurality of adjustment capacitors comprises at least four adjustment capacitors, or wherein the plurality of adjustment capacitors comprises at least ten adjustment capacitors. 3. Voltage sensor according to claim 1 , wherein each adjustment capacitor is associated to one switch, and wherein each switch is associated to one adjustment capacitor. 4. Voltage sensor according to claim 1 , wherein two switches are associated to one adjustment capacitor, such that each of the two switches can connect the adjustment capacitor in parallel to at least one of the one or more low-voltage capacitors. 5. Voltage sensor according to claim 1 , wherein each adjustment capacitor has a capacitance of between 0.05% and 20.00% of the combined capacitance of the one or more low-voltage capacitors. 6. Voltage sensor according to claim 1 , wherein the nominal capacitance values of the adjustment capacitors are equally spaced on a logarithmic scale. 7. Voltage sensor according to claim 1 , wherein the overall impedance of the high-voltage portion and the overall impedance of the low-voltage portion of the voltage divider are adapted such that the voltage divider, for an AC voltage of 10 kV phase-to-ground and a frequency of 50 Hertz, has a dividing ratio of 10±0.5% or less when one or more of the plurality switches are in their disconnect state, and has a dividing ratio of 10 000±0.5% or more when at least one of these one or more of the plurality switches is in its connect state. 8. Voltage sensor according to claim 1 , further comprising a non-inverting operational amplifier for providing a sensor output signal at a low output impedance, an input of the operational amplifier being electrically connected to the signal contact. 9. Voltage sensor according to claim 1 , wherein at least one switch of the plurality of switches, after bringing it into its connect state, cannot be brought from its connect state into its disconnect state. 10. Voltage sensor according to claim 1 , wherein at least one of the switches is externally accessible. 11. Voltage sensor according to claim 1 , wherein at least one switch of the plurality of switches is adapted and/or arranged such that it can be brought into a connect state manually, or by a robotic actuator, or by pneumatic force. 12. Voltage sensor according claim 1 , wherein the adjustment capacitors and the switches are arranged on a printed circuit board. 13. Voltage sensor according to claim 12 , wherein the printed circuit board has an elongated shape such that it can be accommodated in a cable. 14. Voltage sensor according to claim 12 , wherein the printed circuit board has output pads, arranged and shaped to be soldered to pins of a connector ( 310 ). 15. Voltage sensor according to claim 12 , wherein the printed circuit board has a strain relief slot to engage with a strength member or a shield of a cable. 16. Power network for distributing electrical power in a national grid, the power network comprising an HV/MV power conductor and a voltage sensor according to claim 1 , the voltage sensor being electrically connected to the power conductor to sense an AC voltage of the power conductor. 17. Method of adjusting the common overall impedance of the low-voltage portion of the voltage divider of a voltage sensor according to claim 1 towards a desired impedance, the method comprising the step of bringing at least one of the switches into the connect state or into the disconnect state. 18. Voltage sensor for sensing an AC voltage of a HV/MV power conductor, the voltage sensor comprising a resistive voltage divider for sensing the AC voltage, the voltage divider comprising a high-voltage portion comprising one or more high-voltage resistors, electrically connected in series with each other; a low-voltage portion comprising one or more low-voltage resistors, electrically connected in series with each other between the high-voltage portion and electrical ground; a signal contact, electrically arranged between the high-voltage portion and the low-voltage portion, for providing a signal voltage, indicative of the AC voltage, wherein the low-voltage portion further comprises, for adjusting the common overall impedance of the low-voltage portion towards a desired impedance, a plurality of adjustment resistors and a plurality of switches, wherein each switch is associated and electrically connected to one or more of the adjustment resistors and can be brought into a connect state and into a disconnect state such that the switch in its connect state, electrically connects the adjustment resistor(s), to which it is associated, in parallel to at least one of the one or more low-voltage resistors; in its disconnect state, electrically disconnects at least one contact of the adjustment resistor(s) to which it is associated from the low-voltage resistor(s) to which, in its connect state, it connects the associated adjustment resistor, wherein the overall impedance of the high-voltage portion and the overall impedance of the low-voltage portion of the voltage divider are adapted such that, by bringing one or more of the switches into their connect state, the voltage divider has, for an AC voltage of between 5 and 25 kV phase-to-ground and a frequency of between 40 and 70 Hertz, a dividing ratio of 3077±0.5% or of 6154±0.5% or of 6769±0.5% or of 10 000±0.5%.