The Autotransformer: For Step-up, Step Down And Split Phase Balancing
PRODUCT CODE : ITR000100000
An autotransformer can be used for step-up, step-down and split phase output balancing purposes. While the step-up and step-down functions are fairly straightforward, split phase output balancing may require some more attention.
Consider for example a 30A 120/240V split phase supply. The supply could be the grid, a generator or two stacked inverters. Some of the loads connected are 240V others are 120V. On each 120V leg, the load should not exceed 30A. The problem is as soon as 120V loads are connected, the two legs will show a different current. This is because the 120V loads on the two legs will never be balanced. A 120V 1200W hairdryer, for example, will draw 10A from one leg. A 120V washing machine could even draw in excess of 20A from one leg. Between the two legs, the difference in current or current unbalance, will therefore often be 20A or more. This means that the 30A supply will not be used to its full potential. By the time one leg draws 30A, the other leg may be drawing no more than 10A, and increasing the 240V load, for example, will result in an overload of one leg, while the other leg still has spare capacity.
Theoretically, the total power can be drawn from a 30A 120/240V supply is a 30 x 240 = 7.2kVA. In case of 20A unbalance, the practical maximum will be 30 x 120 + 10 x 120 = 4.8kVA, or 67% of the theoretical maximum.
The solution is an Autotransformer. By leaving the neutral of the split phase supply unused, and connecting an Autotransformer to create a new neutral, a load unbalance is 'absorbed' by the Autotransformer. In case of a 30A supply, the load can be increased to 7.2kVA, and a 20 load unbalance will result in one leg supplying 40A, and the other leg 20A. The 20A difference will flow through the neutral and the windings of the Autotransformer. The current through both 120V wires of the split phase will be 30A.
Ground Relay For Use With Multi Or Quattro Inverter/Chargers Included
When operating in inverter mode, the neutral output of the inverter/charger must be connected to ground to guarantee the proper functioning of a GFCI. In case of a split phase supply, the neutral must be grounded. For this purpose, a grounding relay is built in the Autotransformer's enclosure. The relay is controlled by the 230/240V Multi or Quattro (The internal grounding relay in the 230/240V Multi or Quattro must be disabled)
In case of overheating, the Autotransformer is disconnected from the supply, Reset is manual.
An Alternative To Stacked Inverters
The alternative to stacking two 120V inverters to provide a 120/240V split phase supply is a 240V Inverter with an additional Autotransformer.
Two stacked 120V 3kVA inverters will supply up to 25A to each 120V leg. If the load on one leg is less than 25A, the maximum load on the other leg is still limited to 25A.
The 240V 5kVA Inverter with a 32A Autotransformer will supply up to 21A of balanced load to each 120V leg. Fewer loads on one leg, however, result in more power being available on the other leg, with a maximum unbalance of 32A.
Therefore the load can be up to 38.5A on one leg if the load is not more than 3.5A on the other leg (maximum unbalance: 38.5 - 3.5 = 35A) If load unbalances is to be expected, a lower power 240V inverter with an Autotransformer will, therefore, be preferable to the stacked inverter solution.
• Input/output Voltage: 120/240V
• Input circuit breaker: 32A two pole
• Frequency: 50/60Hz
• Maximum 240V feed through current: 32A
• Neutral current, 30 mins: 32A (3800 VA)
• Neutral current, continuous: 28A @ 40°C/100°F
• Transformer Type: Toroidal
• Enclosure: Aluminium
• Input circuit breaker: Yes
• Protection Category: IP21
• Safety: EN60076
• Weight: 15kg
• Dimensions: 45cm (H) x 35cm (W)x 30cm (D)