Externally gapped line arrester

The invention claimed is: 1. An externally gapped line arrester (EGLA) for transmission lines, comprising: a series varistor unit (SVU) having a first end and a second end, the SVU configured to be connected between a transmission line and ground; a primary sparkover gap provided by a primary sparkover gap unit serially connected to the first end of the SVU and comprising a suspension insulator with gap electrodes; a shorting-link device connected between the second end of the SVU and ground, and in parallel with a secondary gap arranged between the second end of the SVU and ground, the secondary gap and the primary sparkover gap being serially arranged; and a disconnecting device arranged in the shorting-link device, the disconnecting device configured to open the shorting-link device when the SVU is overloaded. 2. The EGLA according to claim 1 , wherein the primary sparkover gap unit is configured to sparkover for lightning impulses and for switching impulses and not for power frequency temporary overvoltage (TOV). 3. The EGLA according to claim 2 , wherein the secondary gap is configured to not sparkover for switching impulses. 4. The EGLA according to claim 2 , wherein the secondary gap, together with the primary sparkover gap unit, is configured to not sparkover for switching impulses. 5. The EGLA according to claim 2 , wherein the disconnecting device is configured to open the shorting-link device by separating the shorting-link device into two separate parts. 6. The EGLA according to claim 1 , wherein the primary sparkover gap unit is configured to sparkover for lightning impulses and not for power frequency temporary overvoltage (TOV). 7. The EGLA according to claim 1 , wherein the secondary gap is configured to not sparkover for switching impulses. 8. The EGLA according to claim 1 , wherein the secondary gap, together with the primary sparkover gap unit, is configured to not sparkover for switching impulses. 9. The EGLA according to claim 1 , wherein the disconnecting device is configured to open the shorting-link device by separating the shorting-link device into two separate parts. 10. The EGLA according to claim 1 , wherein the EGLA is dimensioned for ultra-high-voltage. 11. The EGLA according to claim 1 , wherein the shorting-link device is a visual fault indicator for the SVU. 12. The EGLA according to claim 1 , wherein the disconnecting device includes an explosive charge with a passive trigger. 13. A method for impulse protection for transmission lines, the method being performed in an externally gapped line arrester (EGLA), the method comprising: when a series varistors unit (SVU) connected between a transmission line and ground is overloaded, by sparkover of a primary sparkover gap unit serially connected between a first end of the SVU and the transmission line, the primary sparkover gap unit comprising a suspension insulator with gap electrodes, opening a shorting-link device by a disconnecting device, the shorting-link device arranged in parallel with a secondary gap serially arranged between the second end of the SVU and ground. 14. The method according to claim 13 , wherein the voltage of the sparkover is induced by a lightning impulse or a switching impulse and not by a power frequency temporary overvoltage (TOV). 15. The method according to claim 13 , wherein the secondary gap is configured to not sparkover for switching impulses. 16. The method according to claim 13 , wherein the secondary gap, together with the primary sparkover gap unit, is configured to not sparkover for switching impulses. 17. The method according to claim 13 , wherein the opening step includes activation of a disconnecting device to divide the shorting-link device into two separate parts. 18. The method according to claim 13 , wherein the EGLA is dimensioned for ultra-high-voltage. 19. The method according to claim 13 , further comprising visually indicating operational status of the SVU.