High-leg delta
High-leg delta (also known as wild-leg, stinger leg, bastard leg, high-leg, orange-leg, or red-leg delta) is a type of electrical service connection for three-phase electric power installations. It is used when both single and three-phase power is desired to be supplied from a three phase transformer (or transformer bank). The three-phase power is connected in the delta configuration, and the center point of one phase is grounded. This creates both a split-phase single phase supply (L1 or L2 to neutral on diagram at right) and three-phase (L1-L2-L3 at right). It is called "orange leg" because when it is connected per the NEC, the high leg is marked with orange "outer finish...or other effective means"[1] (usually tape). By convention, the high leg is usually set in the center (B phase) lug in the involved panel, regardless of the L1-L2-L3 designation at the transformer.
Supply
High-leg delta service is supplied in one of two ways. One is by a transformer having four wires coming out of the secondary, the three phases, plus a neutral connected as a center-tap on one of the windings. Another method requires two transformers. One transformer is connected to one phase of the overhead primary distribution circuit to provide the 'lighting' side of the circuit (this will be the larger of the two transformers), and a second transformer is connected to another phase on the circuit and its secondary is connected to one side of the 'lighting' transformer secondary, and the other side of this transformer is brought out as the 'high leg'. The voltages between the three phases are the same in magnitude, however the voltage magnitudes between a particular phase and the neutral vary. The phase-to-neutral voltage of two of the phases will be half of the phase-to-phase voltage. The remaining phase-to-neutral voltage will be √3/2 the phase-to-phase voltage, that is, if A-B-C is 240 volts, then A-N and C-N will be 120 volts, but B-N will be 208 volts.
Other types of three-phase supplies are wye connections, ungrounded delta connections, "ghost" leg configuration delta connections (two transformers supplying three phase power), or corner-grounded delta[2] connections. These connections do not supply split single-phase power, and do not have a high leg.
Explanation
Consider the low-voltage side of a 120/240 V high leg delta connected transformer, where the 'b' phase is the 'high' leg. The line-to-line voltage magnitudes are all the same:
Because the winding between the 'a' and 'c' phases is center-tapped, the line-to-neutral voltages for these phases are as follows:
But the phase-neutral voltage for the 'b' phase is different:
This can be proven by writing a KVL equation, using angle notation, starting from the grounded neutral:
or:
Advantages
If the "high leg" is not used, the system acts like a split single-phase system, which is familiar.
Both three-phase and single split-phase power can be supplied from a single transformer bank.
Where the three-phase load is small relative to the total load, two individual transformers may be used instead of the three for a "full delta" or a three-phase transformer, thus providing a variety of voltages at reduced cost. This is called "open-delta high-leg", and has a reduced capacity relative to a full delta.[3][4][5]
Disadvantages
In cases where the single-phase load is much greater than the three phase load, load balancing will be poor. Generally, these cases are identified by three transformers supplying the service, two of which are sized significantly smaller than the third, and the third larger transformer will be center tap grounded.
One of the phase-to-neutral voltage (usually phase "B") is higher from the other two. The hazard of this is that if single phase loads are connected to the high leg (with the connecting person unaware that that leg is higher voltage), excess voltage is supplied to that load. This can easily cause failure of the load.
Commonly there is a high-leg to neutral load limit when only two transformers are used.[6] One transformer manufacturer's page suggests that High-leg to neutral loading to not exceed 5% of transformer capacity.[7]
Applications
It is often found in older and rural installations. This type of service is usually supplied using 240 V line-to-line and 120 V line-to-neutral. In some ways, the high leg delta service provides the best of both worlds: a line-to-line voltage that is higher than the usual 208 V that most three-phase services have, and a line-to-neutral voltage (on two of the phases) sufficient for connecting appliances and lighting. Thus, large pieces of equipment will draw less current than with 208 V, requiring smaller wire and breaker sizes. Lights and appliances requiring 120 V can be connected to phases 'A' and 'C' without requiring an additional step-down transformer.
Even when unmarked, it is generally easy to identify this type of system, because the "B" phase (breaker #3 and #4) and every third breaker afterwards will be either a three-pole breaker or a blank.
Current practice is to give separate services for single-phase and three-phase loads, e.g., 120 V split-phase (lighting etc.) and 240 V to 600 V three-phase (for large motors). However, many jurisdictions forbid more than one class for a premises' service, and the choice may come down to 120/240 split-phase, 208 single-phase or three-phase (delta), 120/208 three-phase (wye), or 277/480 three-phase (wye).
See also
- Transformer
- Three-phase electric power
- Electric power distribution
- Mains electricity
- Mains electricity by country
- Scott-T transformer
References
- ↑ National Electrical Code (NEC), NFPA 70, 2014 edition, Section 110.15
- ↑ "Corner-Grounded Delta (Grounded B Phase) Systems" (PDF). Schneider Electric. Retrieved 2012-07-30.
- ↑ "Transformer Basics Chapter 3". Federalpacific.com. Retrieved 2012-07-30.
- ↑ Nick Fowler (2005-01-01). Electrician's Calculations Manual. ISBN 978-0-07-143654-0. Retrieved 2012-07-30.
- ↑ Traister, John E; Maher, Bradford (1999). Illustrated Guide to the 1999 National Electrical Code. ISBN 978-1-57218-075-8. Retrieved 2012-07-30.
- ↑ Fowler, Nick (2011). Electrician's Calculations Manual 2nd Edition. McGraw-Hill. pp. 3–5. ISBN 978-0-07-177017-0.
- ↑ Federal pacific
- sea.siemens.com
- NFPA 70: National Electrical Code, 2005 Ed.
- NFPA 70: National Electrical Code, 2015 Ed.
- Square D Bulletin on Corner-Grounded Delta