The power electronics company is offering a product which can work on and off the grid and enables the charging of dead batteries using a rooftop solar array.
There are many reasons to add storage to a home solar system but, for many, the chief attraction is the ability to keep loads running during power outages—a point which power electronics company Schneider Electric‘s newest product claims to improve on.
The company has launched its Conext MPPT 100 high-power solar charge controller, which purportedly ramps up charging power 25% compared to predecessor the MPPT 80. Usually, if a battery dies at night, or after prolonged power outages, an inverter will not charge the battery from the PV array at daybreak, as grid power is needed to reboot the system. Schneider’s charge controller, however, would enable recharging from PV after the whole installation has come to a halt. Thus, the system for DC-coupled solutions can also work entirely off-grid, if required. The manufacturer was keen to stress, though, the new charge controller works in tandem with the grid to optimize self-sufficiency.
Charge controllers manage the charge current going into the battery and according to the product datasheet, the MPPT 100 produces a considerable, 100 A charge current. Though the device is rated at 6 kW, it can be connected to slightly oversized arrays of up to 7 kW, says the manufacturer.
The product is designed to operate at 600 V, including the temperature correction factor, which drives a reduction in balance-of-system costs. The manufacturer said owners can benefit from 50% less wiring on the two input strings to the controller, compared to low-voltage products. The charge control is carried out by a three-stage set-up in which bulk, absorption and float methods are used, in addition to the option of manual equalization.
In terms of battery voltage, Schneider’s new device can handle 24 and 48 V products. The battery operation voltage range was announced as 16-67 Vdc. The higher the battery voltage, the better the power conversion efficiency, according to the manufacturer, with 95% efficiency measured for 48 V battery technologies and 92% for 24 V devices. Equipped with a wide operating voltage range – 195-550 V for the PV system – and a similarly open MPPT voltage range, of 195-510 Vdc, the manufacturer says its product offers greater flexibility in string sizing than rivals. The MPPT algorithm is also said to be shade tolerant and ‘fast sweeping,’ according to Schneider, further improving the energy harvest.