Time synchronization between IEDs of different substations

The invention claimed is: 1. A method for time-synchronized communication of packets between a first substation and a second substation interconnected by a communication channel, wherein the method is performed at the first substation, and wherein the method comprises: receiving a packet of samples from the second substation over the communication channel, wherein the samples have been obtained within the second substation and provided with time information associated with a common reference clock; receiving a time indication from the common reference clock over the communication channel; and performing time-wise synchronization of the samples of the received packet with samples obtained within the first substation by time-wisely compensating the samples of the received packet by means of the time information and a first time difference between the common reference clock and a local reference clock of the first substation. 2. The method according to claim 1 , wherein the time information comprises a timestamp of the samples according to the common reference clock. 3. The method according to claim 1 , wherein the time information comprises a timestamp of the samples according to the local reference clock of the second substation and an indication of a second time difference between the local reference clock of the second substation and the common reference clock. 4. The method according to claim 3 , wherein there is a time difference between the common reference clock and the local reference clock of the first and/or the second sub station. 5. The method according to claim 1 , further comprising: providing the samples obtained within the first substations with time information associated with the common reference clock; and sending the samples in a first packet of samples to the second substation over the communication channel; wherein the packet of samples received from the second substation is a second packet of samples. 6. The method according to claim 1 , wherein the method is performed by a first intelligent electronic device of the first substation and by a second IED of the second substation, wherein the first and second IED communicate with each other over the communication channel. 7. The method according to claim 6 , wherein each IED comprises its own substation interface for communication within its substation and a network interface for communication with IEDs of other substations over the communication channel, wherein each substation interface is associated with its own local reference clock used as a substation-internal time synchronization reference, and wherein the network interface is configured to receive a signal from the common reference clock. 8. The method according to claim 1 , wherein the samples represent current values, and wherein the method further comprises: calculating a differential current as a difference between the compensated samples and the samples as obtained within the first substation; and providing the differential current to a line differential protection function in the first substation. 9. The method according to claim 8 , further comprising: determining the first time difference as the difference between the common reference clock and the local reference clock of the first substation, and a second time difference as a difference between the common reference clock and a local reference clock of the second substation; and verifying that a difference between the first time difference and the second time difference is smaller than a time threshold before providing the differential current to the line differential protection function. 10. The method according to claim 9 , wherein the method further comprises blocking the line differential protection function, when the difference between the first time difference and the second time difference is not smaller than the time threshold. 11. The method according to claim 1 , wherein each of the local reference clocks has higher accuracy than the common reference clock. 12. The method according to claim 11 , wherein the common reference clock is either a network clock or one of the substation clocks. 13. An intelligent electronic device (IED) for time-synchronized communication of packets between a first and a second substation interconnected by a communication channel, the IED comprising processing circuitry, the processing circuitry being configured to cause the IED to perform a method comprising: receiving a packet of samples from the second substation over the communication channel, wherein the samples have been obtained within the second substation and provided with time information associated with a common reference clock; receiving a time indication from the common reference clock over the communication channel; and performing time-wise synchronization of the samples of the received packet with samples obtained within the first substation by time-wisely compensating the samples of the received packet by means of the time information and a first time difference between the common reference clock and a local reference clock of the first substation. 14. The IED according to claim 13 , wherein the time information comprises a timestamp of the samples according to the common reference clock. 15. The IED according to claim 13 , wherein the time information comprises a timestamp of the samples according to the local reference clock of the second substation and an indication of a second time difference between the local reference clock of the second substation and the common reference clock. 16. The IED according to claim 13 , wherein the method further comprises: providing the samples obtained within the first substations with time information associated with the common reference clock; and sending the samples in a first packet of samples to the second substation over the communication channel; wherein the packet of samples received from the second substation is a second packet of samples. 17. The IED according to claim 13 , further comprising a substation interface for communication within the first substation, and a network interface for communication with IEDs of other substations over the communication channel, wherein the substation interface is associated with a local reference clock used as a substation-internal time synchronization reference, and wherein the network interface is configured to receive a signal from the common reference clock. 18. The IED according to claim 13 , wherein the samples represent current values, and wherein the method further comprises: calculating a differential current as a difference between the compensated samples and the samples as obtained within the first substation; and providing the differential current to a line differential protection function in the first sub station. 19. The IED according to claim 13 , wherein the local reference clock has higher accuracy than the common reference clock. 20. A non-transitory computer-readable storage medium having stored thereon a computer program comprising computer code which when run on processing circuitry of an intelligent electronic device (IED) of a first substation, interconnected by a communication channel with a second substation, causes the IED to perform a method comprising: receiving a packet of samples from the second substation over the communication channel, wherein the samples have been obtained within the second substation and provided with time information associated with a common reference clock; receiving a time indic