What is a transformerless inverter?
The differences between standard or conventional inverters and transformerless inverters are:
- Conventional inverters are built with an internal transformer that synchronizes the DC voltage with the AC output.
- Transformerless inverters use a computerized multi-step process and electronic components to convert DC to high frequency AC, back to DC, and ultimately to standard-frequency AC.
Transformerless inverters are increasing in popularity in European and Australian markets.
Transformerless Inverter Appeal
Transformerless inverters are light, compact, and relatively inexpensive. Since transformerless inverters use electronic switching rather than mechanical switching the amount of heat and humidity produced by standard inverters is greatly reduced.
Transformerless inverters maintain the unique ability to utilize two power point trackers that allow installations to be treated as separate Solar PV Systems. In other words with transformerless inverters, Solar PV Panels can be installed in two different directions (i.e. north and west) on the same rooftop and generate DC output at separate peak hours with optimal effects. Traditional inverters work through only one power point, which means panels that are performing at lower frequencies will lower DC output for the entire system.
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Transformerless Inverter Considerations
Transformerless inverters do not have electrical isolation between DC and AC circuits. This may raise some grounding and / or lightning protection concerns. In order for transformerless inverters to comply with NEC specifications specially designed and more expensive PV Wire must be used.
Transformerless inverters have been developed for use with Grid-Tie Solar PV Systems, so Off-Grid systems users will not necessarily achieve the same benefit yet.
Inverter efficiency is determined by the percentage measurement of energy convergence (i.e. the closer to 100% of DC to AC convergence for the longest amount of time the more refined inverter efficiency). When calculating efficiency it is important to include peak and off-peak performance percentages in addition to how often your inverter is operating at rated capacity.
Studies show that even a small percentage increase in inverter efficiency means the power supply increase can be quite significant if factored throughout the life span of the inverter.
Installation Considerations for Transformerless Inverters:
- The positive and negative PV source circuits must BOTH be switched and over-current protected with transformerless inverters.
- The PV array equipment must still be grounded, but not the PV source.
- The modules and the source circuits must use wire rated PV WIRE or PV CABLE.
- The negative conductor of the PV array is not grounded, and therefore shall no longer be colored white when terminating at the inverter or disconnect. Refer to NEC 690.35 for some relavent transformerless inverter information
- PV source circuits shall be labeled with the following warning at each junction box, combiner box, disconnect, and device where the ungrounded circuits may be exposed during service:
ELECTRIC SHOCK HAZARD
THE DC CONDUCTORS OF THIS
PHOTOVOLTAIC SYSTEM ARE
UNGROUNDED AND MAY BE ENERGIZED.
Possible Benefits of using a Transformerless Inverter:
- Usually much lighter in weight than inverters with transformers.
- Have higher efficiency ratings
- Capable of dual MPPT inputs, depending on manufacturer
- Advantages of Grid-Tied Systems
- How do solar panels work?
- PV Junction Box: purpose and connection
- How to install solar panels?
- How to assemble MC4 connectors and MC4 wiring cables
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