GE Multilin D60 Line Distance Relay 9-79 APPLICATION OF SETTINGS 9.3 PROTECTION SIGNALING SCHEMES9Good directional integrity is the key requirement for an over-reaching forward-looking protection element used to supple-ment Zone 2. Even though any FlexLogic™ operand could be used for this purpose allowing the user to combineresponses of various protection elements, or to apply extra conditions through FlexLogic™ equations, this extra signal isprimarily meant to be the output operand from either the Negative-Sequence Directional IOC or Neutral Directional IOC.Both of these elements have separate forward (FWD) and reverse (REV) output operands. The forward indication shouldbe used (NEG SEQ DIR OC1 FWD or NEUTRAL DIR OC1 FWD).An important consideration is when one of the line terminals is open. It is then necessary to identify this condition andarrange for a continuous sending of the permissive signal or use a slower but more secure echo feature to send a signal tothe other terminal, which is producing the fault infeed. With any echo scheme however, a means must be provided to avoida permanent lock up of the transmit/receive loop. The echo co-ordination (ECHO DURATION) and lock-out (ECHO LOCK-OUT) timers perform this function by ensuring that the permissive signal is echoed once for a guaranteed duration of timebefore going to a lockout for a settable period of time.It should be recognized that in ring bus or breaker and a half situations, it may be the line disconnect or a combination ofthe disconnect and/or the breaker(s) status that is the indication that the terminal is open.The POTT RX PICKUP DELAY timer is included in the permissive receive path to ride through spurious receive outputs thatmay be produced during external faults, when power line carrier is utilized as the communications medium.No current reversal logic is included for the overreaching phase and ground distance elements, because long reaches arenot usually required for two terminal lines. A situation can occur however, where the ground distance element will have anextended reach. This situation is encountered when it is desired to account for the zero sequence inter-circuit mutual cou-pling. This is not a problem for the ground distance elements in the D60 which do have a current reversal logic built intotheir design as part of the technique used to improve ground fault directionality.Unlike the distance protection elements the ground directional overcurrent functions do not have their reach well defined,therefore the current reversal logic is incorporated for the extra signal supplementing Zone 2 in the scheme. The transientblocking approach for this POTT scheme is to recognize that a permissive signal has been received and then allow a setta-ble time TRANS BLOCK PICKUP DELAY for the local forward looking directional element to pick up.The scheme generates an output operand (POTT TX) that is used to transmit the signal to the remote end. Choices of com-munications channel include Remote Inputs/Outputs and telecommunications interfaces. When used with telecommunica-tions facilities the output operand should be assigned to operate an output contact connected to key the transmitter at theinterface. Power Line Carrier (PLC) channels are not recommended for this scheme since the PLC signal can be inter-rupted by a fault.For proper operation of the scheme the Zone 2 phase and ground distance elements must be enabled, configured and setper rules of distance relaying. The Line Pickup element should be enabled, configured and set properly to detect line-end-open/weak-infeed conditions.If used by this scheme, the selected ground directional overcurrent function(s) must be enabled, configured and set accord-ingly The output operand from the scheme (POTT OP) must be configured to interface with other relay functions, outputcontacts in particular, in order to make the scheme fully operational. Typically, the output operand should be programmed toinitiate a trip, breaker fail, and auto-reclose, and drive a user-programmable LED as per user application.9.3.5 HYBRID POTT SCHEME (HYB-POTT)Generally, this scheme uses an over-reaching Zone 2 distance element to essentially compare the direction to a fault atboth ends of the line. Ground directional overcurrent functions available in the relay can be used in conjunction with theZone 2 distance element to key the scheme and initiate its operation. This increases the coverage for high-resistancefaults.The scheme is intended for three-terminal applications and for weak-infeed conditions. As a long reach of the overreachingdistance element may be required for three-terminal applications, transient blocking logic is provided for both distance andground directional overcurrent elements. In order to cope with weak-infeed conditions an echo feature is made available.By default the scheme uses the reverse-looking Zone 4 distance element to identify reverse faults. Additionally, reverse-looking ground directional overcurrent functions can be used in conjunction with Zone 4.For proper operation of the scheme the Zone 2 and 4 phase and ground distance elements must be enabled, configuredand set per rules of distance relaying. The Line Pickup element should be enabled, configured and set properly to detectline-end-open/weak-infeed and undervoltage conditions.