Method and means for complex, universal earth fault protection in power high and medium voltage system

The invention claimed is: 1. A method for universal earth fault protection in a high and/or medium voltage electrical system application using Rogowski coils as current sensors, the method comprising: determining, for earth fault protection in the electrical system, a residual current value indirectly as a sum of phase currents determined from the output of a Rogowski coil based current sensor; transforming, using the sensor, the phase currents to voltage signals; connecting voltage outputs of the sensor to a protection relay (IED) which digitizes voltage values; conditioning and then transforming the voltage values to the measured current value, together with the actual phase of the current values; and determining the residual current value in a protection relay (IED) as a vector sum of the phase currents. 2. The method of claim 1 , further comprising: comparing the residual current value to a preset level; and taking preset measures including setting an alarm and/or switching off a circuit breaker and/or sending information to a superior system level. 3. The method of claim 2 , wherein the preset measures include setting the alarm. 4. The method of claim 2 , wherein the preset measures include switching off the circuit breaker. 5. The method of claim 2 , wherein the preset measures include sending the information to the superior system level. 6. The method of claim 1 , further comprising: displaying the residual current value on a display of the protection relay (IED), to an operator. 7. The method of claim 1 , further comprising: generating switch-off and/or grounding and/or short circuiting, using sensitive earth fault protection in switchgears. 8. The method of claim 1 , further comprising: implementing a calculation algorithm for determining the residual current value as an exchangeable software-program-product, wherein parameters of the exchangeable software-program-product are adjusted or adjustable to a specific use in a switchgear of other applications, such that (i) the calculation algorithm is transferable into a steering electronic via a data medium, or (ii) a data file sent via browser. 9. The method of claim 1 , further comprising: sending the residual current value to a superior control system using a digital network. 10. An earth fault protection system for cable connectors in high and/or medium voltage switchgears, the system comprising: a coreless Rogowski coil for each path of a three-phase current path, the coreless Rogowski coils being configured for current sensing, wherein the coreless Rogowski coils are combined with protection relays such that residual current of feeders of the switchgear can be calculated, and, when a residual current value reaches a preset level, earth fault protection is activated, wherein each coreless Rogowski coil is applied in a thin ringshaped sensor housing, and wherein the sensor housing includes concentric outer ribs, allowing the sensor housing to enlarge a creepage path along a diameter of a sensor housing ring. 11. The system of claim 10 , wherein, in each sensor housing, the coreless Rogowski coil is arranged between the ribs. 12. A method for universal earth fault protection in a high and/or medium voltage electrical system application using Rogowski coils as current sensors, the method comprising: determining, for earth fault protection in the electrical system, a residual current value indirectly as a sum of phase currents determined from the output of a Rogowski coil based current sensor; and implementing a calculation algorithm for determining the residual current value as an exchangeable software-program-product, wherein parameters of the exchangeable software-program-product are adjusted or adjustable to a specific use in a switchgear of other applications, such that (i) the calculation algorithm is transferable into a steering electronic via a data medium, or (ii) a data file sent via browser.