From solar self-consumption to utility-scale storage, Tensorpack adapts to the job — AC- or DC-coupled, behind-the-meter or grid-tied, single cabinet to multi-megawatt.
Store surplus solar and shift it to the evening peak, lift self-consumption, and cap grid imports. Every Tensorpack product fits — choose the coupling that suits the site.
A hybrid PCS takes the PV array directly, capturing clipped energy and improving round-trip efficiency on new builds.
Add fast-charging capacity without a costly transformer or grid upgrade. The battery shaves the demand peaks chargers create, so the existing connection carries more sessions.
EV chargers and storage sit in parallel on the AC bus. The battery shaves the demand peaks the chargers create, keeping the site within its transformer limit.
Combine solar, a diesel genset and storage into one coordinated microgrid with seamless on-/off-grid transfer — for islands, remote sites and weak-grid industry.
The hybrid PCS integrates PV and the diesel genset with a built-in STS — a compact, all-in-one microgrid core with grid-forming capability.
Build standalone or co-located storage at the megawatt scale. Parallel multiple 836 kWh Tensorpack S cabinets and tie them to the medium-voltage grid through a step-up transformer.
Many PV plants output 800 V. A 690 V battery would need an extra step-up transformer to the PV grid point; Tensorpack S outputs 800 V directly, shares one grid point and saves that transformer.
Tell us the load, the solar and the grid connection — we'll size the system and the coupling for you.
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