Pika Energy’s Three-Phase Islanding Inverter Listed to UL-1741

The three-phase, high power variant of the Pika Islanding Inverter™ enables battery-integrated commercial applications with innovative split-phase islanding.

Pika Energy has received ETL listing for the three-phase model of its Pika Islanding Inverter™, the company announced today. The X11400 Series Pika Islanding Inverter offers 11.4kW of 208VAC power and, like Pika's X7600 Series, is a single-inverter solution for solar-plus-storage.

The company previously announced the UL listing of its single-phase Pika Islanding Inverter (X7600 Series), which has been shipping to customers since September 2016. The three-phase X11400 model of the Pika Islanding Inverter will begin shipping in March 2017.
The transformerless, bidirectional X11400 inverter is ideal for light commercial applications in which solar-plus-storage is an economic advantage. The X11400 includes an integrated DC combiner, to which a compatible smart battery can be directly connected without additional hardware.
The X11400 Series is unique in its ability to offer islanding power for single-phase critical loads. While grid-connected, the inverter operates in three-phase 208V mode, but in the event of a grid outage, the inverter can island single phase loads on a critical load panel, to keep a business's phone systems, servers and lighting up and running.
The Pika Islanding Inverter is the core component of the Pika Energy Island™, a single-inverter system for solar-plus-storage applications using smart batteries. The Pika Energy Island system also includes the Pika PV Link™ DC solar MPPT and the B Link™ battery converter.
"The X11400 Series of our popular Pika Islanding Inverter opens the flexibility, simplicity and efficiency of the Pika Energy Island to commercial businesses," said Ben Polito, Pika Energy's CEO and Co-Founder. "Whether your goal is to lower your baseload or island your single-phase loads in an outage, the three-phase X11400 presents a right-sized and attractively-priced solution with compelling features."
The Pika Islanding Inverter's user-selectable operational modes provide the advantage of grid-tied solar for customers who have not yet added batteries to their system. As more smart batteries are set to enter the market in 2017, many customers are installing the Pika Islanding Inverter with the intention to add batteries later.
This step is simplified by the REbus™ DC Nanogrid, which automates the flow of power and allows all devices to share a common, high-efficiency DC bus. REbus uses embedded smart controls and data on the same wires as power transmission. This makes the Pika Energy Island system, which requires no autotransformer, easy and quick to install, and extremely efficient. This new, higher level of efficiency is critical to solar-plus-storage customers who use batteries for daily cycling to manage energy costs.
Pika Energy is currently filling pre-orders for the X11400 Series Islanding Inverter.
About Pika Energy, Inc.
Pika Energy, Inc. is a manufacturer of direct current (DC) power electronics. Headquartered in Westbrook, Maine, Pika Energy's products include bi-directional, islanding inverters, battery charge controllers, DC solar optimizers, power converters, and certified small wind turbines. All Pika Energy products are powered by the REbus™ DC nanogrid. Pika Energy's products provide grid-optional clean power that enables buildings to collect, store and self-consume energy from solar PV and wind sources. Learn more at http://www.pika-energy.com.

Featured Product

LG Solar Unveils NeON R with Enhanced Aesthetics and Energy Savings

LG Solar Unveils NeON R with Enhanced Aesthetics and Energy Savings

The NeON R module features "Back Contact" cell technology delivering an entirely black panel that is aesthetically pleasing and energy efficient. The cell's seamless, surface blends perfectly into nearly all rooftop designs while the module's electrodes are positioned on the rear of the cell. Using LG's N-type cell structure, the panels produce 365W of energy, up to 7.3kWp, compared to 5.8kWp of the p-type cell. The module's new design minimizes LID, thereby delivering a longer lifespan and increased energy output.