حلول تخزين الطاقة السكنية من JNTech - استقلال الطاقة في المنزل الذكي

During daylight, solar panels convert sunlight into DC electricity. That power first supports household loads; any surplus is directed to battery charging.

When household load exceeds solar output (evening or cloudy days), stored energy is discharged to supply the house. If battery capacity is insufficient, grid power supplements.

In some tariff regimes or time-of-use (TOU) markets, the system can charge batteries during off-peak (cheaper) grid hours and discharge during peak hours to reduce costs.

The system uses a hybrid inverter (or integrated power conversion system, PCS) to convert between DC and AC. It supports bi-directional current: AC↔DC and DC↔AC, enabling both charging and discharging.
In case of grid failure, the system automatically switches to backup mode (islanding), powering critical circuits from the battery. After grid recovery, it reverts to hybrid mode.

A Home Energy Management System (HEMS) or embedded controller monitors real-time parameters: solar generation, load consumption, battery state of charge (SoC), grid status, and electricity pricing.

Based on preset rules or algorithms, the system prioritizes energy flows (solar first → battery → grid), manages battery cycling, and avoids simultaneous charging & discharging. (This control logic avoids efficiency loss and battery stress.)

The controller can also perform peak-shaving, load shifting, or time-based operations (charge when grid price is low, discharge when high), maximizing economic benefits.

The battery system includes a Battery Management System (BMS) for over-voltage, under-voltage, overcurrent, overtemperature, short-circuit protection, cell balancing, and fault isolation.

Protective devices like DC breakers, fuses, grounding, surge protection, and insulation monitoring are included.

The system is designed with compliance to international safety standards and thermal / fire mitigation measures.

Real-time monitoring of system metrics (SoC, voltage, temperature, power flows) via web portal or smartphone app.

OTA firmware updates allow incremental improvements and feature add-ons.

Alerts and diagnostics capabilities support proactive maintenance.