Name: 200KW / 643KWH Hybrid ESS
Availability: InStock

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Key Features

Why Choose the 200KW / 643KWH System?

A fully integrated 200 kW / 643 kWh hybrid PV + storage solution engineered for C&I peak shaving, self-consumption maximisation, and grid resilience — with a typical payback period of just 1–3 years.

Hybrid Integration

201 kWp Solar + 200KW Hybrid Inverter System

The system pairs 320 × 630W PV panels (201 kWp total, 16 panels/string × 20 strings) with a 200 kW hybrid inverter (2 × Solis 100K in parallel). The built-in EMS automatically prioritises solar self-consumption, charges the battery during off-peak periods, and feeds surplus energy to the grid — generating approximately 394 MWh of clean electricity per year and cutting electricity costs by up to 60% for C&I users.

643 kWh LFP Storage

643 kWh Grade-A LFP Battery Bank

Four battery clusters each deliver 160.77 kWh (10 × 51.2V / 314Ah packs per cluster), totalling 643 kWh gross capacity. LFP chemistry provides superior thermal stability, non-combustibility, and over 6,000 deep-cycle charge-discharge cycles. With ≥ 130 Wh/kg energy density and ≥ 80% capacity retention at end of life, the system delivers reliable backup power for approximately 2 hours at full 200 kW load.

Flexible Dispatch

Three Intelligent Working Modes

Operators select from Peak Shift, Self-Consume, or Battery Priority modes to match their tariff structure and load profile. Peak Shift charges from PV first then discharges to the grid during peak tariff periods to maximise arbitrage savings. Self-Consume routes PV to loads, then battery, then grid. Battery Priority charges the battery first from PV, with excess going to loads then grid — ensuring critical loads are always backed up.

Smart EMS

Cloud EMS & Real-Time Remote Monitoring

The integrated data logger supports Modbus RS485 and internet connectivity with a local web server for easy configuration. Operators gain full visibility over PV generation, battery state of charge, load consumption, and grid export. The air conditioning system features fuzzy intelligence control with RS485 remote fault reporting. Automated strategies include peak shaving, frequency regulation, demand response, and VPP aggregation.

Mechanical Parameters

System Configuration & Specifications

Complete technical data for the AUREA 200KW/643KWH Hybrid ESS. Compare with other models in the C&I ESS series or request a custom configuration.

System Bill of Materials

Item	Model / Spec	Qty	Notes
PV Panels	630W Solar Panel	320 pcs	16/string × 20 strings, 201 kWp total
Hybrid Inverter	Solis 100K	2 units	200 kW total, 380–400V, 50 Hz
LFP Battery Cluster	512V / 314Ah (160.77 kWh/cluster)	4 clusters	10 × 51.2V 314Ah per cluster = 643 kWh
High Voltage Box / BMS	1500V 100A	4 units	One per cluster
Battery Combiner Cabinet	3rd-level BMS, 2-in 1-out	2 units	Combines clusters to inverter DC bus
PV Cable	PV1-F 1×6mm²	2,500 m	—
MC4 Connector	1000V 30A	300 pcs	—
Mounting System	Ground / Roof Mount	1 set	For 320 panels
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Detailed Technical Specifications

Parameter	Specification
PV Array
PV Module	630W Monocrystalline
Total PV Capacity	201 kWp (320 panels)
String Configuration	16 panels/string × 20 strings
DC/AC Ratio	2.0
Inverter / PCS
Model	Solis 100K × 2 (parallel)
Rated AC Power	200 kW
Max Expandable Power	600 kW (6-unit parallel)
Max MPPT / Strings	20 MPPT / 40 strings
AC Output Voltage	3/N/PE, 220V/380V or 230V/400V
AC Frequency	50 Hz
Max Supported Load	200 kW (non-inductive)
Battery System
Battery Chemistry	LFP — Lithium Iron Phosphate
Cell Specification	51.2V / 314Ah, ≥ 130 Wh/kg
Cluster Configuration	10 packs per cluster × 4 clusters
Cluster Energy	160.77 kWh per cluster
Total Gross Energy	643 kWh
Backup Duration	≈ 2 hours @ 200 kW
Cycle Life @ 80% DoD	≥ 6,000 Cycles (25°C)
State of Health (EoL)	≥ 80% Capacity Retention
System Performance
Annual Generation	≈ 394 MWh / year
Daily Generation	≈ 1,000 kWh / day
Payback Period	1–3 years (typical)
Safety & Physical
Fire Suppression	Automatic + manual alarm, open/short circuit monitoring
Operating Temperature	−20°C ~ +55°C
Certifications	CE / CGC / TUV
Optional Add-ons	ATS, EMS, outdoor cabinets/containers, additional batteries (0.5C)

Products Details

Core Subsystem Overview

Each subsystem is factory-assembled, individually tested, and pre-commissioned before delivery — ensuring rapid site deployment and long-term reliability.

LFP Battery Cluster & BMS

200KW Hybrid Inverter (2 × Solis 100K)

LFP Battery Cluster

Grade-A LFP cells — 51.2V / 314Ah per pack, ≥ 130 Wh/kg
4 clusters × 10 packs = 643 kWh total gross capacity
1500V / 100A high voltage box + 3rd-level BMS per cluster
Automated cell balancing at cell and pack level
≥ 80% capacity retention at end of 6,000th cycle

200KW Hybrid Inverter

2 × Solis 100K in parallel — expandable to 600 kW (6 units)
Up to 20 MPPT / 40 strings for flexible PV configuration
Supports grid-tied, off-grid, and hybrid operation
AC output: 220V/380V or 230V/400V, 50 Hz
Black-start capability for critical load restoration

Air Conditioning & Thermal Management

Cloud EMS & Data Logger

Thermal Management System

Air conditioning with fuzzy intelligence control
RS485 remote fault identification and reporting
Power-off and restart memory function
Operates across ambient range −20°C to +55°C
Fire detection: automatic + manual alarm, open/short circuit monitoring

Cloud EMS & Data Logger

Modbus RS485 + internet connectivity
Local web server for easy on-site configuration
Real-time PV, battery SOC, load, and grid data logging
Remote access via web dashboard and mobile app
Supports peak shaving, arbitrage, and demand response

System Commissioning & Debugging

Every AUREA 200KW/643KWH ESS undergoes rigorous factory acceptance testing before shipment, and a structured on-site commissioning procedure ensures full system readiness within 3 working days.

Power-On & Initialization TestSystem boot-up verification, LED indicators, HMI display responsiveness, and communication link checks between BMS, inverter, and EMS.

Inverter & PV Array VerificationVerification of both Solis 100K units in grid-tie and off-grid modes, MPPT tracking accuracy, voltage/frequency output stability, and anti-islanding protection.

Battery Integration & BMS ValidationFull charge-discharge cycle test across all 4 clusters, BMS communication validation, SOC calibration, and fire-detection system check.

EMS Strategy & Remote Access HandoverDispatch strategy configuration (Peak Shift / Self-Consume / Battery Priority), cloud dashboard setup, and operator training with commissioning report delivery.

Why Choose Aurea Energy?

Fast ROI — Typical payback period of just 1–3 years through peak shaving, self-consumption, and demand response strategies.
Reliable 24/7 Power — Seamless transition between grid-tied, off-grid, and backup modes ensures zero-interruption power supply for critical C&I loads.
Low Maintenance & Durable — Grade-A LFP cells with ≥ 6,000 cycle rating and ≥ 80% end-of-life capacity retention minimise replacement costs.
Scalable Architecture — Inverter expandable to 600 kW (6-unit parallel); additional battery clusters and optional ATS/EMS/outdoor containers available.
Smart Energy Management — Real-time cloud monitoring, fuzzy intelligence thermal control, and open Modbus RS485 API reduce operational overhead.
Global Service Network — 24h after-sales service, pre-sale technical solutions, and on-site installation guidance from Hefei Aurea Co., Ltd.