Solar Panel, Inverter, Battery Prices Pakistan Today: Updated Daily
Solar prices in Pakistan, today
| Product | Specification | Price (PKR) | Rs/W | Trend |
|---|---|---|---|---|
Aiko 665W 3N+ Series Bifacial Panel Panel |
665W 3N+ Series Bifacial Panel | 30,590 | 46 | ↓ Down 4.8% |
Aiko 770W Bifacial Panel Panel |
770W Bifacial Panel | 36,960 | 48 | ↓ Down 4.2% |
Astronergy 715W Bifacial Solar Panel Panel |
715W Bifacial Solar Panel | 30,745 | 43 | ↓ Down 4.3% |
Canadian 715W Bifacial Solar Panel Panel |
715W Bifacial Solar Panel | 30,030 | 42 | ↓ Down 6.5% |
JA 625W Bifacial Solar Panel Panel |
625W Bifacial Solar Panel | 27,500 | 44 | ↓ Down 4.5% |
LONGi Hi-MO X7 620W Bifacial Panel Panel |
620W Bifacial Panel | 26,970 | 43.5 | ↓ Down 4.9% |
Risen HJT 740W Bifacial Solar Panel Panel |
740W Bifacial Solar Panel | 30,969 | 41.8 | ↓ Down 2.7% |
Trina 630W Bifacial Solar Panel Panel |
630W Bifacial Solar Panel | 26,460 | 42 | ↓ Down 4.5% |
Trina 715W Bifacial Solar Panel Panel |
715W Bifacial Solar Panel | 31,102 | 43.5 | ↓ Down 4.9% |
Aiko 650W Monofacial Solar Panel (Islamabad) Panel |
650W Monofacial Solar Panel (Islamabad) | 28,600 | 44 | ↓ Down 4.1% |
Aiko 655W Bifacial Solar Panel Panel |
655W Bifacial Solar Panel | 29,475 | 45 | ↓ Down 4.2% |
Canadian 580W N-Type Bifacial Panel |
580W N-Type Bifacial | 26,680 | 46 | ↓ Down 4.3% |
JA 595W N-Type Bifacial Panel |
595W N-Type Bifacial | 24,097 | 40.5 | ↓ Down 4.4% |
JA 720W N-Type Bifacial Panel |
720W N-Type Bifacial | 30,960 | 43 | ↓ Down 4.5% |
Jinko 590W Mono-Facial Solar Panel |
590W Mono-Facial Solar | 25,370 | 43 | ↓ Down 4.6% |
Jinko 620W N-Type Bifacial Panel |
620W N-Type Bifacial | 26,660 | 43 | ↓ Down 4.7% |
Jinko 630W N-Type Bifacial Panel |
630W N-Type Bifacial | 29,610 | 47 | ↓ Down 4.8% |
Jinko 705W N Type Bifacial Panel With 24 BB Panel |
705W N Type Bifacial Panel With 24 BB | 33,135 | 47 | ↓ Down 4.9% |
Jinko 720W N-Type Bifacial Panel |
720W N-Type Bifacial | 30,960 | 43 | ↓ Down 6.3% |
Longi Himo x10 650W Bifacial Panel Panel |
650W Bifacial Panel | 31,200 | 48 | ↓ Down 4.2% |
Risen 700W HJT Bifacial Panel |
700W HJT Bifacial | 32,900 | 47 | ↓ Down 4.3% |
Trina 720W N-Type Bifacial Panel |
720W N-Type Bifacial | 31,680 | 44 | ↓ Down 4.4% |
Yingli 590W N-Type Bifacial Panel |
590W N-Type Bifacial | 25,370 | 43 | ↓ Down 4.5% |
ZNShine 585W N-Type Bifacial Panel |
585W N-Type Bifacial | 25,740 | 44 | ↓ Down 4.6% |
Astronergy 580W N-Type Bifacial Solar Panel Panel |
580W N-Type Bifacial Solar Panel | 24,360 | 42 | ↓ Down 4.7% |
Astronergy 585W N-Type Bifacial Panel With 20BB Panel |
585W N-Type Bifacial Panel With 20BB | 24,277 | 41.5 | ↓ Down 4.8% |
Astronergy 585W N-Type Bifacial Panel |
585W N-Type Bifacial | 27,495 | 47 | ↓ Down 4.9% |
Astronergy 615W N-Type Bifacial Solar Panel Panel |
615W N-Type Bifacial Solar Panel | 27,140 | 44.1 | ↓ Down 4.1% |
Astronergy 605W N-Type Bifacial Panel |
605W N-Type Bifacial | 25,410 | 42 | ↓ Down 4.2% |
Astronergy 610W Bifacial Solar Panel Panel |
610W Bifacial Solar Panel | 26,230 | 43 | ↓ Down 4.3% |
Astronergy 635W N-Type Bifacial Panel |
635W N-Type Bifacial | 27,305 | 43 | ↓ Down 4.4% |
Astronergy 705W N-Type Bifacial Solar Panel Panel |
705W N-Type Bifacial Solar Panel | 31,725 | 45 | ↓ Down 4.5% |
LONGi Hi-MO X6 590W Monofacial Panel Panel |
590W Monofacial Panel | 25,370 | 43 | ↓ Down 4.6% |
Tongwei 585W N-Type Bifacial Solar Panel Panel |
585W N-Type Bifacial Solar Panel | 25,155 | 43 | ↓ Down 4.7% |
Yingli 705W N-Type Bifacial Solar Panel Panel |
705W N-Type Bifacial Solar Panel | 26,445 | 37.5 | ↓ Down 4.8% |
Aiko 625W Mono Facial Solar Panel Panel |
625W Mono Facial Solar Panel | 27,500 | 44 | ↓ Down 4.9% |
Hanersun 620W N Type Bifacial Solar Panel Panel |
620W N Type Bifacial Solar Panel | 26,040 | 42 | ↓ Down 4.1% |
Huasun 680W Bifacial Solar Panel Panel |
680W Bifacial Solar Panel | 31,280 | 46 | ↓ Down 4.2% |
LONGi Hi-MO X7 590W Bifacial Panel Panel |
590W Bifacial Panel | 25,075 | 42.5 | ↓ Down 4.3% |
LONGi Hi-MO X7 605W Bifacial Panel Panel |
605W Bifacial Panel | 27,225 | 45 | ↓ Down 4.4% |
LONGi Hi-MO X7 620W N-Type Bifacial Panel Panel |
620W N-Type Bifacial Panel | 27,900 | 45 | ↓ Down 4.5% |
Longi Hi-MO X10 640W Monofacial Panel Panel |
640W Monofacial Panel | 27,520 | 43 | ↓ Down 4.6% |
Longi Hi-MO X10 645W Monofacial Panel Panel |
645W Monofacial Panel | 27,735 | 43 | ↓ Down 4.7% |
Longi Hi-MO X10 645W Bifacial Panel Panel |
645W Bifacial Panel | 32,250 | 50 | ↓ Down 4.8% |
Mesol Alpha 585W N-Type Bifacial Panel Panel |
585W N-Type Bifacial Panel | 25,155 | 43 | ↓ Down 4.9% |
Mesol Alpha 620W N-Type Bifacial Panel Panel |
620W N-Type Bifacial Panel | 26,660 | 43 | ↓ Down 4.1% |
Mesol Alpha 710W N-Type Bifacial Panel Panel |
710W N-Type Bifacial Panel | 30,530 | 43 | ↓ Down 4.2% |
Trina 585W N-Type Bifacial Solar Panel Panel |
585W N-Type Bifacial Solar Panel | 25,740 | 44 | ↓ Down 4.3% |
Trina Solar 590W N-Type Bifacial Panel Panel |
590W N-Type Bifacial Panel | 25,960 | 44 | ↓ Down 4.4% |
Trina Solar 610W N-Type Bifacial Panel Panel |
610W N-Type Bifacial Panel | 26,840 | 44 | ↓ Down 4.5% |
Trina 615W N-Type Bifacial Solar Panel Panel |
615W N-Type Bifacial Solar Panel | 26,137 | 42.5 | ↓ Down 4.6% |
Trina Solar 620W N-Type Bifacial Panel |
620W N-Type Bifacial | 26,970 | 43.5 | ↓ Down 4.7% |
Trina 625W N-Type Bifacial Solar Panel Panel |
625W N-Type Bifacial Solar Panel | 27,187 | 43.5 | ↓ Down 4.8% |
TW Solar 590W N-Type Bifacial Solar Panel Panel |
590W N-Type Bifacial Solar Panel | 25,370 | 43 | ↓ Down 4.9% |
TW Solar 605W N-Type Bifacial Solar Panel Panel |
605W N-Type Bifacial Solar Panel | 26,015 | 43 | ↓ Down 4.1% |
TW Solar 710W N-Type Bifacial Solar Panel Panel |
710W N-Type Bifacial Solar Panel | 31,240 | 44 | ↓ Down 4.2% |
Yingli 580W N-Type Bifacial Solar Panel Panel |
580W N-Type Bifacial Solar Panel | 24,650 | 42.5 | ↓ Down 4.3% |
Yingli 605W N-Type Bifacial Solar Panel Panel |
605W N-Type Bifacial Solar Panel | 25,712 | 42.5 | ↓ Down 4.4% |
Yingli 615W N-Type Bifacial Solar Panel Panel |
615W N-Type Bifacial Solar Panel | 26,137 | 42.5 | ↓ Down 4.5% |
Yingli 620W N-Type Bifacial Solar Panel Panel |
620W N-Type Bifacial Solar Panel | 26,350 | 41 | ↓ Down 5.2% |
Yingli 625W N-Type Bifacial Solar Panel Panel |
625W N-Type Bifacial Solar Panel | 26,562 | 42.5 | ↓ Down 4.7% |
Yingli 630W N-Type Bifacial Solar Panel Panel |
630W N-Type Bifacial Solar Panel | 26,775 | 42.5 | ↓ Down 4.8% |
ZNShine 705W N-Type Bifacial Solar Panel Panel |
705W N-Type Bifacial Solar Panel | 29,610 | 42 | ↓ Down 4.9% |
Canadian Solar 585W N-Type Bifacial Panel Panel |
585W N-Type Bifacial Panel | 28,665 | 49 | ↑ Up 5.1% |
Canadian Solar 605W N-Type Bifacial Panel Panel |
605W N-Type Bifacial Panel | 27,225 | 45 | ↓ Down 4.2% |
Canadian Solar 615W N-Type Bifacial Panel Panel |
615W N-Type Bifacial Panel | 27,675 | 45 | ↓ Down 4.3% |
Canadian Solar 620W N-Type Bifacial Panel Panel |
620W N-Type Bifacial Panel | 27,900 | 47 | ↑ Up 4% |
Canadian Solar 625W N-Type Bifacial Panel Panel |
625W N-Type Bifacial Panel | 28,125 | 45 | ↓ Down 4.5% |
JA Solar 605W N-Type BiFacial Panel |
605W N-Type BiFacial | 24,986 | 41.3 | ↓ Down 4.6% |
JA Solar 610W N-Type Bifacial Panel |
610W N-Type Bifacial | 26,630 | 43.7 | ↓ Down 4.7% |
JA Solar 705W N-Type Bifacial Panel Panel |
705W N-Type Bifacial Panel | 31,725 | 45 | ↓ Down 4.8% |
JA Solar 710W N-Type Bifacial Panel Panel |
710W N-Type Bifacial Panel | 29,571 | 41.6 | ↓ Down 4.9% |
Jinko BDX 585W N-Type Bifacial Panel Panel |
585W N-Type Bifacial Panel | 28,138 | 48.1 | ↓ Down 4.1% |
Jinko 585W Monofacial Solar Panel Panel |
585W Monofacial Solar Panel | 25,155 | 43 | ↓ Down 4.2% |
Longi HiMO X7 605W BiFacial Panel |
605W BiFacial | 27,225 | 45 | ↓ Down 4.3% |
LONGi Hi-MO X7 610W N-Type Bifacial Solar Panel Panel |
610W N-Type Bifacial Solar Panel | 27,450 | 45 | ↓ Down 4.4% |
SolarMax 10kW Onyx DUAL Hybrid Inverter (PV16000) (5Y) Inverter |
10kW Hybrid | 440,000 | — | ↓ Down 3.4% |
SolarMax FALCON ULTRA 6kW Hybrid Inverter (2Y) Inverter |
6kW Hybrid | 105,000 | — | ↓ Down 4.8% |
SolarMax ORION DUAL 6kW Hybrid Inverter (2Y) Inverter |
6kW Hybrid | 140,000 | — | ↓ Down 3.7% |
SolarMax ORION Ultra 11 kW Hybrid Inverter (2Y) Inverter |
11kW Hybrid | 250,000 | — | ↓ Down 4.2% |
SolarMax ORION ULTRA 8kW Hybrid Inverter (2Y) Inverter |
8kW Hybrid | 235,000 | — | ↓ Down 3.1% |
SolarMax SOLON Dual 6kW Hybrid Inverter (5Y) Inverter |
6kW Hybrid | 95,000 | — | ↓ Down 4.6% |
SolarMax 3.8kW Solon Hybrid Inverter (1-Y) Inverter |
3.8kW Hybrid | 78,000 | — | ↓ Down 3.9% |
SolarMax 4kW Orion Hybrid Inverter (2Y) Inverter |
4kW Hybrid | 110,000 | — | ↓ Down 4.4% |
SolarMax 6kW Onyx UL Hybrid Inverter (PV9000) (5Y) Inverter |
6kW Hybrid | 235,000 | — | ↓ Down 3.5% |
Diamond 10.5KW Hybrid Inverter (5Y) Inverter |
10.5kW Hybrid | 262,000 | — | ↓ Down 4.7% |
Diamond 4.5KW Hybrid Inverter (5Y) Inverter |
4.5kW Hybrid | 117,000 | — | ↓ Down 3.3% |
Diamond 6.5KW Hybrid Inverter (5Y) Inverter |
6.5kW Hybrid | 142,000 | — | ↓ Down 4.1% |
Diamond II 2.2KVA Hybrid Inverter (5Y) Inverter |
2.2KVA Hybrid | 71,000 | — | ↓ Down 3.8% |
Diamond II 3.2KVA Hybrid Inverter (5Y) Inverter |
3.2KVA Hybrid | 81,000 | — | ↓ Down 4.9% |
Dual Max 1.6KW Hybrid Inverter (5Y) Inverter |
1.6kW Hybrid | 74,000 | — | ↓ Down 3.2% |
Dual Max 5.5KW Hybrid Inverter (5Y) Inverter |
5.5kW Hybrid | 114,000 | — | ↓ Down 4.5% |
Growatt 10kw Ongrid Inverter Inverter |
10kW On-grid | 175,000 | — | ↓ Down 3.6% |
Growatt 10kW X2 Pro OnGrid Inverter Inverter |
10kW On-grid | 175,000 | — | ↓ Down 4.3% |
Growatt 15kw Ongrid Inverter Inverter |
15kW On-grid | 228,000 | — | ↓ Down 3.4% |
Growatt 15kW X2 Pro OnGrid Inverter Inverter |
15kW On-grid | 235,000 | — | ↓ Down 4.8% |
Growatt 20kw Ongrid Inverter Inverter |
20kW On-grid | 280,000 | — | ↓ Down 3.7% |
Growatt 25kW Ongrid Inverter Inverter |
25kW On-grid | 310,000 | — | ↓ Down 4.2% |
Growatt 33kW Ongrid Inverter Inverter |
33kW On-grid | 415,000 | — | ↓ Down 3.1% |
Growatt 40kW Ongrid Inverter Inverter |
40kW On-grid | 499,000 | — | ↓ Down 4.6% |
Fox 75kW Ongrid Inverter Inverter |
75kW On-grid | 830,000 | — | ↓ Down 3.9% |
Fox 100kW Ongrid Inverter Inverter |
100kW On-grid | 924,000 | — | ↓ Down 4.4% |
Fox 110kW Ongrid Inverter Inverter |
110kW On-grid | 945,000 | — | ↓ Down 3.5% |
Fox 125kW Ongrid Inverter Inverter |
125kW On-grid | 990,000 | — | ↓ Down 4.7% |
Anicsun 3.6kW 1P21 Hybrid Inverter Inverter |
3.6kW Hybrid | 102,000 | — | ↓ Down 3.3% |
Anicsun 4kW 1P21 Hybrid Inverter Inverter |
4kW Hybrid | 115,000 | — | ↓ Down 4.1% |
Solis 6KW Hybrid Inverter (Single Phase) (5Y) Inverter |
6kW Hybrid | 245,000 | — | ↓ Down 3.8% |
Solis 8kw Hybrid Inverter (Single Phase) (5Y) Inverter |
8kW Hybrid | 340,000 | — | ↓ Down 4.9% |
Solis 12kw S6 Hybrid Inverter (LV) (5Y) Inverter |
12kW Hybrid | 550,000 | — | ↓ Down 3.2% |
Solis 15kw S6 Hybrid Inverter (LV) (5Y) Inverter |
15kW Hybrid | 650,000 | — | ↓ Down 4.5% |
Solis 20kW S6 Hybrid Inverter (HV) (5Y) Inverter |
20kW Hybrid | 700,000 | — | ↓ Down 3.6% |
Solis 50kW S6 Hybrid Inverter (HV) (5Y) Inverter |
50kW Hybrid | 1,475,000 | — | ↓ Down 4.3% |
Sineng 125kW Ongrid Inverter (5Y) Inverter |
125kW On-grid | 900,000 | — | ↓ Down 3.4% |
Sineng 12kW Ongrid Inverter (5Y) Inverter |
12kW On-grid | 195,000 | — | ↓ Down 4.8% |
Sineng 15kW HV Hybrid Inverter (5Y) Inverter |
15kW Hybrid | 550,000 | — | ↓ Down 3.7% |
Sineng 15kW Ongrid Inverter (5Y) Inverter |
15kW On-grid | 225,000 | — | ↓ Down 4.2% |
Sineng 20kW Ongrid Inverter (5Y) Inverter |
20kW On-grid | 275,000 | — | ↓ Down 3.1% |
Sineng 25kW HV Hybrid Inverter (5Y) Inverter |
25kW Hybrid | 645,000 | — | ↓ Down 4.6% |
Inverex 13kw Hybrid Inverter LV Three Phase (5Y) Inverter |
13kW Hybrid | 780,000 | — | ↓ Down 3.9% |
Inverex 16kw Hybrid Inverter LV Three Phase (5Y) Inverter |
16kW Hybrid | 1,020,000 | — | ↓ Down 4.4% |
Inverex 20kw Hybrid Inverter LV Three Phase (5Y) Inverter |
20kW Hybrid | 1,190,000 | — | ↓ Down 3.5% |
Inverex 3kw Hybrid Inverter (5Y) Inverter |
3kW Hybrid | 200,000 | — | ↓ Down 4.7% |
Chint CPS 12kW HV 3-Phase Hybrid Inverter (5Y) Inverter |
12kW Hybrid | 663,000 | — | ↓ Down 3.3% |
Chint CPS 15kW HV 3-Phase Hybrid Inverter (5Y) Inverter |
15kW Hybrid | 705,000 | — | ↓ Down 4.1% |
Chint CPS 20kW HV 3-Phase Hybrid Inverter (5Y) Inverter |
20kW Hybrid | 780,000 | — | ↓ Down 3.8% |
Dyness DL5.0C Pro 5kWh LV Battery IP20 (10Y) Battery The Dyness DL5.0C Pro 5kWh LV Battery IP20 (10Y) is a low-voltage lithium energy storage module designed for residential and small commercial solar systems. Built around lithium iron phosphate (LiFePO4) chemistry, it prioritizes thermal stability, long cycle life, and consistent discharge performance. The 5kWh capacity makes it suitable for backup power applications such as lighting circuits, fans, refrigeration support, and essential loads during grid outages. The IP20 enclosure rating indicates indoor installation suitability, typically in controlled environments like utility rooms or battery cabinets where dust and moisture exposure is limited. This battery is commonly deployed in modular configurations, allowing multiple units to be stacked in parallel to increase total storage capacity depending on system requirements. Dyness systems are generally designed with integrated battery management systems (BMS) that monitor voltage, current, temperature, and state of charge to maintain operational safety and extend lifespan. The 10-year design reference suggests a long service life under recommended operating conditions and moderate depth-of-discharge cycles. Compatibility is typically achieved with hybrid inverters that support lithium communication protocols such as CAN or RS485. The DL5.0C Pro is often used in solar self-consumption systems where daytime solar generation is stored for nighttime use. Its compact form factor allows easier installation in constrained spaces, while its modularity makes it adaptable for future expansion. It is widely used in regions with unstable grid conditions where backup reliability and cycle efficiency are critical. |
5kWh LiFePO4 LV | 264,000 | — | ↓ Down 4.3% |
Dyness Stack 280 Lithium Battery HV IP20 (10Y) Battery The Dyness Stack 280 Lithium Battery HV IP20 (10Y) is a high-voltage stackable energy storage system designed for larger residential and commercial solar installations. It utilizes lithium iron phosphate (LiFePO4) chemistry, which is known for thermal stability, deep cycle capability, and long operational life. The stackable architecture allows multiple battery modules to be connected in series, enabling scalable energy storage configurations suitable for higher load requirements and three-phase inverter systems. This system is typically engineered for high-voltage hybrid inverter compatibility, improving energy conversion efficiency by reducing current losses in long cable runs. Each module in the stack contributes to a centralized battery management system that monitors cell balancing, voltage regulation, and thermal performance. The IP20 rating indicates that the unit is intended for indoor installation in protected environments such as technical rooms or dedicated battery enclosures. The Dyness Stack 280 is commonly deployed in commercial solar setups, agricultural facilities, and large homes with high energy demand or backup requirements. Its modular structure allows system designers to scale capacity as energy needs increase, reducing upfront oversizing costs. The battery is also designed to support frequent cycling, making it suitable for daily solar self-consumption systems. Integration with compatible hybrid inverters allows real-time monitoring of state of charge and system health, ensuring optimized energy dispatch and improved overall system efficiency. |
HV Stackable 280Ah | 635,000 | — | ↓ Down 4.6% |
EY 2.56kWh LiFePO4 Battery Bank (IP21) Battery The EY 2.56kWh LiFePO4 Battery Bank (IP21) is a compact lithium iron phosphate energy storage solution designed for small-scale solar systems, backup applications, and off-grid setups. With a nominal capacity of 2.56kWh, it is suitable for light residential loads such as LED lighting, WiFi routers, fans, and small appliances during grid interruptions. The LiFePO4 chemistry ensures improved safety, stable thermal behavior, and long cycle life compared to traditional lead-acid alternatives. The IP21 enclosure rating indicates that the battery is intended for indoor use in protected environments where exposure to dust and moisture is minimal. This makes it appropriate for installation in utility rooms, cabinets, or controlled indoor spaces. The battery bank typically integrates a built-in battery management system (BMS) that handles cell balancing, overcharge protection, over-discharge prevention, and temperature monitoring to maintain safe operation. EY battery systems are often designed for compatibility with low-voltage inverters used in small hybrid or off-grid solar setups. The compact size makes it easy to install in space-constrained environments, while its modular nature allows for expansion in parallel configurations depending on energy demand. It is commonly used in rural electrification setups, backup systems for shops, and small home solar installations where cost-effective lithium storage is preferred over larger, more complex systems. |
2.56kWh LiFePO4 | 145,000 | — | ↓ Down 4.8% |
Goodwe 50kWh Lithium Battery Battery The GoodWe 50kWh Lithium Battery is a high-capacity energy storage system designed for commercial and industrial solar applications requiring substantial backup and load shifting capability. Built on lithium iron phosphate (LiFePO4) technology, it offers strong thermal stability, long cycle life, and consistent performance under high-demand usage. The 50kWh capacity makes it suitable for facilities such as warehouses, manufacturing units, agricultural processing plants, and large commercial buildings. This system is typically integrated with GoodWe hybrid or off-grid inverter platforms, enabling seamless communication for energy management, state-of-charge monitoring, and optimized charge/discharge cycles. The battery is engineered for high efficiency in daily cycling applications, allowing users to store excess solar energy during the day and utilize it during peak demand or nighttime hours. The modular design of GoodWe storage systems often allows for parallel expansion or rack-based installation depending on system architecture. The internal battery management system ensures cell-level balancing, voltage protection, and temperature control to maintain operational safety and extend lifecycle performance. Its large-scale design is particularly suited for peak shaving applications, where reducing grid consumption during high tariff periods can significantly lower operational costs. The system is generally installed in controlled environments with appropriate ventilation and safety infrastructure to support long-term industrial usage. |
50kWh LFP High Capacity | 2,850,000 | — | ↓ Down 4.1% |
Hithium Maxpower 5kWh LV Battery IP20 (5Y) Battery The Hithium Maxpower 5kWh LV Battery IP20 (5Y) is a low-voltage lithium iron phosphate storage unit designed for residential solar backup and self-consumption systems. With a 5kWh usable capacity, it is suitable for essential household loads such as lighting, fans, routers, and small appliances during power outages. The LiFePO4 chemistry provides strong thermal stability, enhanced safety characteristics, and a long cycle life compared to traditional lead-acid battery systems. This battery is typically used in modular configurations, allowing multiple units to be connected in parallel to increase total storage capacity. It is designed to integrate with hybrid inverter systems that support lithium communication protocols, enabling real-time monitoring of battery performance, state of charge, and health status. The IP20 rating indicates that the system is intended for indoor installation in protected environments such as battery rooms or enclosed cabinets. The Maxpower series is engineered with an internal battery management system that provides protection against overcharging, over-discharging, short circuits, and temperature fluctuations. This ensures stable operation under varying load conditions and extends overall service life. It is commonly used in residential solar systems aiming to maximize solar self-consumption by storing daytime energy for nighttime use. Its compact design makes it suitable for installations with limited space while still offering scalable energy storage potential for future system expansion. |
5kWh LiFePO4 LV | 255,000 | — | ↓ Down 4.9% |
Huawei 12kW Hybrid Inverter + 7kWh Battery (HV 3 Phase) (10Y) Battery The Huawei 12kW Hybrid Inverter + 7kWh Battery (HV 3 Phase) (10Y) is an integrated energy storage and conversion system designed for residential and small commercial three-phase solar installations. It combines a high-efficiency hybrid inverter with a lithium battery module to provide both energy conversion and storage in a unified architecture. The system is engineered to manage solar generation, grid interaction, and battery storage simultaneously, optimizing energy usage across different load conditions. The included 7kWh high-voltage lithium battery is typically based on lithium iron phosphate chemistry, offering long cycle life, thermal stability, and reliable deep discharge performance. The hybrid inverter manages power flow between solar panels, grid supply, and battery storage, ensuring maximum self-consumption of solar energy and backup capability during outages. The three-phase design makes it suitable for homes and small businesses with balanced load distribution requirements. Huawei systems are known for advanced digital monitoring features, allowing users to track energy production, consumption, and battery status through smart interfaces or mobile applications. The system includes multiple protection mechanisms such as over-voltage, over-current, and temperature safeguards. It is commonly used in environments requiring stable backup power and optimized solar utilization, particularly where grid reliability is inconsistent. The modular design allows for system expansion depending on future energy needs. |
12kW Hybrid + 7kWh HV | 1,350,000 | — | ↓ Down 4.5% |
Huawei 15kW Hybrid Inverter + 7kWh Battery (HV 3 Phase) (10Y) Battery The Huawei 15kW Hybrid Inverter + 7kWh Battery (HV 3 Phase) (10Y) is a mid-to-large scale hybrid solar energy system designed for residential estates and commercial facilities with higher power demands. It integrates a 15kW three-phase hybrid inverter with a 7kWh high-voltage lithium battery, enabling efficient energy conversion, storage, and distribution within a single coordinated system. This configuration supports both grid-tied operation and backup power functionality. The 7kWh lithium battery module typically uses LiFePO4 chemistry, offering strong cycle durability, stable thermal performance, and enhanced safety characteristics. The hybrid inverter intelligently manages energy flow between photovoltaic arrays, grid supply, and battery storage, ensuring optimal energy utilization and reduced dependency on grid electricity. The three-phase architecture allows balanced power distribution, making it suitable for larger households or small commercial operations with diverse electrical loads. Huawei’s energy management ecosystem provides real-time monitoring of system performance through digital interfaces, enabling users to track solar generation, consumption patterns, and battery health. Advanced protection features include surge protection, temperature regulation, and fault detection systems. This setup is often used in environments requiring reliable backup power, reduced electricity costs through peak shaving, and efficient solar self-consumption. The system is designed for scalability, allowing future expansion of battery storage or solar capacity as energy needs increase. |
15kW Hybrid + 7kWh HV | 1,450,000 | — | ↓ Down 4.2% |
Huawei 20kW Hybrid Inverter + 7kWh Battery (HV 3 Phase) (10Y) Battery The Huawei 20kW Hybrid Inverter + 7kWh Battery (HV 3 Phase) (10Y) is a high-capacity solar energy management system designed for commercial buildings and large residential properties with significant electricity consumption. It integrates a 20kW three-phase hybrid inverter with a 7kWh high-voltage lithium battery, forming a unified platform for solar power conversion, energy storage, and load management. The system’s lithium battery module is typically based on LiFePO4 chemistry, known for long cycle life, thermal stability, and high discharge efficiency. The hybrid inverter coordinates energy flow between solar panels, the electrical grid, and the battery system, ensuring efficient self-consumption and backup power availability during outages. Its three-phase configuration allows balanced energy distribution across high-load appliances and industrial-grade equipment. Huawei’s platform includes intelligent energy monitoring features accessible via digital interfaces or mobile applications. Users can analyze consumption trends, optimize energy usage, and monitor system health in real time. Built-in protection mechanisms safeguard against voltage fluctuations, overheating, and electrical faults. This system is commonly deployed in commercial environments such as offices, farms, and retail complexes where energy reliability and cost optimization are critical. Its modular nature allows for future expansion of storage capacity or solar input as demand grows, making it suitable for scalable energy infrastructure planning. |
20kW Hybrid + 7kWh HV | 1,550,000 | — | ↓ Down 4.7% |
Huawei 25kW Hybrid Inverter + 7kWh Battery (HV 3 Phase) (10Y) Battery The Huawei 25kW Hybrid Inverter + 7kWh Battery (HV 3 Phase) (10Y) is a large-scale hybrid solar energy system engineered for commercial and institutional energy demands. It combines a 25kW three-phase hybrid inverter with a 7kWh high-voltage lithium battery to deliver integrated solar conversion, storage, and intelligent energy distribution. This system is designed for environments where high power loads and uninterrupted energy availability are essential. The included lithium battery system is typically based on lithium iron phosphate (LiFePO4) chemistry, which ensures stable thermal behavior, long operational lifespan, and efficient deep-cycle performance. The hybrid inverter manages energy flow between photovoltaic input, grid supply, and battery storage, optimizing self-consumption and providing backup power during outages. The three-phase configuration supports heavy electrical loads, making it suitable for commercial operations with distributed power requirements. Huawei’s energy management ecosystem provides real-time monitoring through smart platforms, enabling detailed insights into energy production, consumption, and battery health. The system includes multiple safety features such as surge protection, over-current control, and temperature regulation. It is commonly used in commercial buildings, agricultural operations, and industrial facilities where energy cost optimization and reliability are critical. The modular architecture allows system expansion, making it adaptable for future energy scaling and infrastructure upgrades. |
25kW Hybrid + 7kWh HV | 1,690,000 | — | ↓ Down 4% |
Huawei 8kW Hybrid Inverter + 7kWh Battery (HV 3 Phase) (10Y) Battery The Huawei 8kW Hybrid Inverter + 7kWh Battery (HV 3 Phase) (10Y) is a compact three-phase hybrid solar energy system designed for residential and small commercial applications. It integrates an 8kW hybrid inverter with a 7kWh high-voltage lithium battery, enabling efficient solar energy conversion, storage, and backup power functionality within a single integrated solution. The 7kWh battery module typically utilizes lithium iron phosphate (LiFePO4) chemistry, known for its stability, safety, and long cycle life. The hybrid inverter manages power distribution between solar panels, grid electricity, and stored energy, ensuring optimized energy usage and reduced dependency on the grid. The three-phase design supports balanced load distribution, making it suitable for homes or small businesses with multiple high-consumption appliances. Huawei systems include intelligent monitoring tools that allow users to track energy production and consumption patterns in real time. These insights help optimize energy usage and improve system efficiency. Built-in safety features protect against voltage fluctuations, overheating, and system faults. The system is commonly used in regions with unstable grid supply, providing reliable backup power while maximizing solar self-consumption. Its modular structure allows for future expansion of solar capacity or additional battery storage as energy requirements increase over time. |
8kW Hybrid + 7kWh HV | 1,250,000 | — | ↓ Down 4.2% |
Itel 10kWh Lithium Battery IP20 Battery The Itel 10kWh Lithium Battery IP20 is a medium-capacity energy storage solution designed for residential and small commercial solar systems. With a 10kWh storage capacity, it is suitable for running essential household appliances, including lighting systems, fans, refrigerators, and communication devices during power outages. The battery is based on lithium iron phosphate (LiFePO4) chemistry, which provides stable thermal performance, high cycle durability, and improved safety compared to traditional lead-acid batteries. The IP20 enclosure rating indicates that the battery is intended for indoor installation in protected environments such as utility rooms or dedicated battery enclosures. It is typically used in solar hybrid systems where excess daytime solar energy is stored and utilized during nighttime or grid failure periods. The internal battery management system (BMS) monitors key parameters such as voltage, current, temperature, and state of charge to ensure safe operation and extend service life. Itel battery systems are generally designed for compatibility with hybrid inverters supporting lithium communication protocols, enabling seamless integration and real-time monitoring. The 10kWh capacity makes it a flexible option for users seeking moderate energy independence without investing in larger commercial-scale systems. It is commonly used in residential solar setups where reliable backup power and improved energy efficiency are primary requirements. |
10kWh LiFePO4 | 475,000 | — | ↓ Down 4.5% |
LVTS-512300 15.36kwh Lithium Battery (IP20) (5Y) Battery The LVTS-512300 15.36kWh Lithium Battery (IP20) (5Y) is a high-capacity low-voltage energy storage system designed for residential, commercial, and small industrial solar applications. With a 15.36kWh nominal capacity, it is suitable for powering multiple household circuits or supporting essential loads in small business environments during grid outages. The system is based on lithium iron phosphate (LiFePO4) chemistry, which provides strong thermal stability, high cycle life, and consistent discharge performance. This battery is typically deployed in modular solar configurations where multiple units can be connected in parallel to increase total storage capacity. The integrated battery management system (BMS) ensures safe operation by monitoring voltage, current, temperature, and cell balancing. The IP20 rating indicates that it is intended for indoor installation in controlled environments such as battery rooms or enclosed cabinets. The LVTS system is commonly paired with hybrid inverters that support lithium communication protocols, enabling real-time monitoring and optimized energy dispatch. It is suitable for applications requiring higher energy autonomy, including agricultural setups, retail shops, and residential complexes. The 15.36kWh capacity provides extended backup duration compared to smaller systems, making it effective for regions with frequent power interruptions. Its design emphasizes scalability, allowing users to expand storage capacity as energy demand grows over time. |
15.36kWh LiFePO4 | 600,000 | — | ↓ Down 4.9% |
Maxpower MP20024 24V 200Ah Lithium Battery IP20 Battery The Maxpower MP20024 24V 200Ah Lithium Battery IP20 is a medium-voltage lithium iron phosphate storage unit designed for small to mid-sized solar energy systems, off-grid setups, and backup power applications. With a nominal energy capacity of approximately 4.8kWh, it is commonly used for running essential household loads such as lighting circuits, fans, communication equipment, and small appliances during grid outages. The 24V architecture makes it suitable for compatibility with a wide range of low-voltage hybrid and off-grid inverters. This battery is built using LiFePO4 chemistry, which provides improved thermal stability, long cycle life, and safer operation compared to traditional lead-acid alternatives. The integrated battery management system (BMS) continuously monitors voltage, current, temperature, and cell balancing to ensure stable performance and protection against overcharge, deep discharge, and short circuit conditions. The IP20 enclosure rating indicates that it is intended for indoor use in controlled environments such as utility rooms or enclosed battery cabinets. The MP20024 is often deployed in modular systems where multiple units can be connected in parallel to increase total storage capacity. It is commonly used in rural electrification setups, backup systems for small businesses, and residential solar installations seeking affordable lithium storage. Its compact design and relatively high energy density make it a practical upgrade from older lead-acid battery banks, offering better efficiency and reduced maintenance requirements over long-term operation. |
24V 200Ah LiFePO4 | 260,000 | — | ↓ Down 4.6% |
Mesol 16kWh Infiniti Lithium Battery Battery The Mesol 16kWh Infiniti Lithium Battery is a high-capacity energy storage system designed for residential estates, commercial buildings, and backup-critical environments requiring extended runtime during grid interruptions. With a 16kWh nominal capacity, it supports multiple household circuits or essential commercial loads, making it suitable for users with higher-than-average energy consumption needs. This system is built on lithium iron phosphate (LiFePO4) chemistry, which is widely recognized for its thermal stability, safety profile, and long cycle life under deep discharge conditions. The internal battery management system (BMS) ensures safe and optimized operation by continuously monitoring voltage levels, current flow, temperature distribution, and cell balancing. These protections help extend operational lifespan and maintain consistent performance under varying load conditions. The Mesol Infiniti series is typically designed for compatibility with hybrid inverter systems, allowing seamless integration into solar energy setups. It is often used in configurations where solar energy is stored during the day and consumed at night or during peak demand periods. The IP-rated enclosure supports indoor installation in controlled environments, making it suitable for technical rooms or battery enclosures. Its higher capacity allows for longer backup durations compared to smaller residential systems, making it a practical choice for users seeking increased energy independence and improved resilience against power outages. |
16kWh LiFePO4 | 625,000 | — | ↓ Down 4.2% |
Pilot LFP 1.28kWh 12.8V 100Ah Lithium Battery IP65 (3Y) Battery The Pilot LFP 1.28kWh 12.8V 100Ah Lithium Battery IP65 is a compact low-voltage energy storage solution designed for small solar systems, portable power setups, and light backup applications. With a nominal capacity of 1.28kWh, it is typically used for powering basic electrical loads such as lighting, routers, small fans, and low-consumption devices in off-grid or backup scenarios. This battery uses lithium iron phosphate (LiFePO4) chemistry, known for its stability, safety, and extended cycle life compared to traditional battery technologies. The 12.8V configuration makes it compatible with a wide range of small inverters and DC systems. The IP65 rating provides protection against dust and low-pressure water exposure, making it more versatile for installation in semi-exposed environments compared to standard indoor-only batteries. The integrated battery management system (BMS) ensures protection against overcharging, over-discharging, overheating, and short circuits while balancing individual cells for optimal performance. The Pilot LFP 1.28kWh battery is commonly used in small solar home systems, telecom backup setups, and portable energy storage units. Its lightweight and compact form factor make it easy to install and transport, while its lithium chemistry provides significantly better efficiency and lifespan compared to lead-acid alternatives used in similar low-capacity applications. |
1.28kWh 12.8V 100Ah LiFePO4 | 70,000 | — | ↓ Down 4.7% |
Pilot LFP 2.56kWh 12.8V 200Ah Lithium Battery IP65 (3Y) Battery The Pilot LFP 2.56kWh 12.8V 200Ah Lithium Battery IP65 is a compact yet higher-capacity energy storage solution designed for residential backup systems, small off-grid solar installations, and portable energy applications. With a 2.56kWh capacity, it provides extended runtime for essential loads such as lighting, fans, routers, and small appliances during power outages or in remote locations. Built using lithium iron phosphate (LiFePO4) chemistry, this battery offers strong thermal stability, long cycle life, and consistent discharge performance. The 12.8V 200Ah configuration makes it compatible with low-voltage inverters and DC systems commonly used in small solar setups. Its IP65 rating ensures resistance to dust and water ingress, allowing installation in more flexible environments compared to standard indoor-only batteries. The internal battery management system (BMS) provides critical protections including overcharge prevention, deep discharge protection, short-circuit safety, and temperature monitoring. It also ensures cell balancing to maintain uniform performance and extend service life. The Pilot LFP 2.56kWh battery is widely used in residential solar backup systems, rural electrification projects, and small commercial setups where reliability and compact energy storage are required. Its modular nature allows multiple units to be connected in parallel for increased capacity, offering scalability for future energy expansion needs. |
2.56kWh 12.8V 200Ah LiFePO4 | 125,000 | — | ↓ Down 4.3% |
Soluna 7.68kWh Lithium Battery HV IP65 (10Y) Battery The Soluna 7.68kWh Lithium Battery HV IP65 is a high-voltage energy storage system designed for residential and small commercial solar installations requiring efficient and reliable backup power. With a 7.68kWh capacity, it is suitable for running essential household circuits and moderate commercial loads during grid outages or peak demand periods. This battery is based on lithium iron phosphate (LiFePO4) chemistry, offering strong safety characteristics, high cycle life, and stable performance under frequent charging and discharging cycles. The high-voltage architecture improves system efficiency by reducing current losses and enabling better integration with modern hybrid inverter systems. The IP65 rating ensures protection against dust and water exposure, making it suitable for flexible installation environments. The Soluna system incorporates an advanced battery management system (BMS) that monitors voltage, temperature, current flow, and state of charge in real time. This ensures safe operation and extends battery lifespan through optimized charge control and cell balancing. It is commonly used in solar self-consumption systems where excess daytime energy is stored and used at night. The modular design allows for system expansion, enabling users to increase storage capacity as energy requirements grow. Soluna batteries are widely deployed in residential energy storage projects focused on improving grid independence and maximizing solar utilization efficiency. |
7.68kWh HV LiFePO4 | 445,000 | — | ↓ Down 4.5% |
Sunwoda Atrix Max 16kWh Lithium Battery Battery The Sunwoda Atrix Max 16kWh Lithium Battery is a high-capacity energy storage system designed for residential estates, commercial facilities, and hybrid solar installations requiring substantial backup power. With a 16kWh storage capacity, it is capable of supporting multiple essential circuits and higher-load appliances during grid outages or peak consumption periods. This battery utilizes lithium iron phosphate (LiFePO4) chemistry, which is known for its safety, thermal stability, and long operational life. The system is engineered for deep cycling applications, making it suitable for daily solar energy storage and discharge. The integrated battery management system (BMS) provides real-time monitoring of voltage, temperature, current, and state of charge, ensuring safe and efficient operation under varying load conditions. The Sunwoda Atrix Max is commonly integrated with hybrid inverter systems to enable seamless energy flow between solar panels, grid supply, and stored energy. It supports energy optimization strategies such as peak shaving and load shifting, which help reduce electricity costs in commercial and residential environments. Its modular architecture allows for scalability in larger installations, making it suitable for future expansion. The system is typically installed in controlled indoor environments, ensuring optimal performance and long-term reliability in solar energy storage applications. |
16kWh LiFePO4 | 700,000 | — | ↓ Down 4.1% |
Vaults Powerox PO3680 8kWh Lithium Battery + 3.68kw Inverter Battery The Vaults Powerox PO3680 8kWh Lithium Battery + 3.68kW Inverter is an integrated hybrid energy solution combining battery storage and power conversion in a single system. Designed for residential and small commercial applications, it offers a balanced configuration for backup power and solar energy utilization. The 8kWh lithium battery provides sufficient storage capacity for essential household loads, while the 3.68kW inverter handles energy conversion and load management. The battery component is based on lithium iron phosphate (LiFePO4) chemistry, known for long cycle life, thermal stability, and safe operation. The integrated inverter system manages energy flow between solar panels, grid supply, and battery storage, ensuring efficient power distribution and uninterrupted backup during outages. The system is typically used in solar hybrid setups where energy is stored during the day and consumed during peak demand or nighttime hours. The built-in battery management system (BMS) provides protection against overcharging, over-discharging, short circuits, and temperature fluctuations. This ensures reliable long-term operation and extends battery lifespan. The Powerox PO3680 is commonly used in residential solar installations and small commercial setups requiring compact and integrated energy solutions. Its all-in-one design reduces installation complexity and space requirements, making it suitable for users seeking simplified solar energy storage and backup systems. |
8kWh Battery + 3.68kW Inverter | 335,000 | — | ↓ Down 4.8% |
VESTWOODS VT48100E-M2 5.12kWh Battery (IP20) (5Y) Battery The VESTWOODS VT48100E-M2 5.12kWh Battery IP20 is a low-voltage lithium iron phosphate energy storage module designed for residential solar systems and backup applications. With a 5.12kWh capacity, it is suitable for essential household loads such as lighting, fans, routers, and small appliances during grid outages or periods of low solar generation. This battery operates on 48V architecture, making it compatible with a wide range of hybrid and off-grid inverters commonly used in residential solar setups. The LiFePO4 chemistry ensures stable thermal behavior, high cycle life, and enhanced safety compared to traditional battery technologies. The IP20 enclosure rating indicates suitability for indoor installation in controlled environments such as utility rooms or battery cabinets. The integrated battery management system (BMS) continuously monitors key operational parameters including voltage, current, temperature, and cell balancing to ensure safe and efficient performance. It also protects against overcharge, deep discharge, and short circuit conditions. The VESTWOODS VT48100E-M2 is often deployed in modular configurations, allowing multiple units to be connected in parallel for increased storage capacity. It is widely used in residential solar systems focused on improving energy independence and optimizing solar self-consumption. |
5.12kWh LiFePO4 48V | 205,000 | — | ↓ Down 4.6% |
Inverex 12V-100Ah Lithium Battery IP20 (5Y) Battery The Inverex 12V-100Ah Lithium Battery IP20 is a compact low-voltage energy storage solution designed for small-scale solar systems, backup power applications, and portable energy setups. With a nominal capacity of approximately 1.28kWh, it is suitable for powering essential low-consumption devices such as lighting, fans, routers, and small electronics during grid outages or off-grid operation. This battery uses lithium iron phosphate (LiFePO4) chemistry, offering enhanced safety, long cycle life, and stable discharge performance compared to conventional lead-acid batteries. The 12V configuration ensures compatibility with a wide range of small inverters, DC systems, and solar charge controllers commonly used in entry-level solar installations. The internal battery management system (BMS) provides protection against overcharging, over-discharging, short circuits, and temperature fluctuations while maintaining cell balancing for optimal performance. The IP20 rating indicates that it is intended for indoor use in controlled environments such as utility rooms or enclosed battery setups. Inverex battery systems are widely used in residential backup solutions and small solar applications across regions with unstable grid supply. Their compact size and ease of installation make them a practical choice for users seeking affordable and reliable lithium-based energy storage for basic power needs. |
12V 100Ah LiFePO4 | 80,000 | — | ↓ Down 4.2% |
Inverex 12V-200Ah Lithium Battery IP20 (5Y) Battery The Inverex 12V-200Ah Lithium Battery IP20 is a higher-capacity low-voltage energy storage solution designed for residential backup systems, small commercial setups, and off-grid solar installations. With a nominal capacity of approximately 2.56kWh, it is suitable for running essential loads such as lighting, fans, refrigeration units, and communication devices during power outages. This battery is built using lithium iron phosphate (LiFePO4) chemistry, which provides strong thermal stability, long cycle life, and improved safety compared to traditional lead-acid battery systems. The 12V architecture allows compatibility with a variety of small inverters and solar energy systems commonly used in residential and rural applications. The integrated battery management system (BMS) continuously monitors voltage, current, temperature, and cell balancing to ensure safe and efficient operation. It also protects against overcharging, deep discharge, and short-circuit conditions, extending the overall lifespan of the battery. The IP20 enclosure rating indicates suitability for indoor installation in controlled environments such as utility rooms or battery cabinets. The Inverex 12V-200Ah battery is widely used in backup power systems where reliability and cost efficiency are important. Its compact design and modular expandability make it a flexible option for users who may scale their solar storage capacity in the future. |
12V 200Ah LiFePO4 | 155,000 | — | ↓ Down 4.9% |
Inverex 2.5kWh 24V Lithium Battery IP20 (10Y) Battery The Inverex 2.5kWh 24V Lithium Battery IP20 is a compact energy storage solution designed for small residential solar systems and backup power applications. With a 2.5kWh capacity, it is suitable for essential loads such as lighting, fans, routers, and small appliances during grid outages or off-grid operation. The 24V configuration makes it compatible with a wide range of small hybrid and off-grid inverters. This battery is based on lithium iron phosphate (LiFePO4) chemistry, which ensures high thermal stability, long cycle life, and consistent discharge performance. Compared to traditional lead-acid batteries, it provides higher efficiency, lower maintenance requirements, and better usable capacity. The internal battery management system (BMS) manages voltage regulation, current flow, temperature monitoring, and cell balancing to ensure safe and reliable operation. The IP20 enclosure rating indicates that it is intended for indoor installation in protected environments such as utility rooms or battery cabinets. Inverex systems are widely used in residential solar setups where affordability and reliability are key requirements. The modular nature of the system allows for parallel expansion in some configurations, enabling users to increase storage capacity over time. This battery is particularly suited for households seeking a cost-effective entry into lithium-based solar energy storage with improved performance over older battery technologies. |
2.5kWh 24V LiFePO4 | 175,000 | — | ↓ Down 4.4% |
Inverex LV-IP21 11.8kWh Battery (10Y) Battery The Inverex LV-IP21 11.8kWh Battery is a low-voltage lithium iron phosphate energy storage system designed for residential and small commercial solar installations requiring higher backup capacity. With an 11.8kWh storage capability, it can support multiple household circuits or essential business loads during power outages or periods of low solar generation. This battery utilizes LiFePO4 chemistry, known for its thermal stability, safety, and long cycle life. The system is engineered for deep cycling applications, making it suitable for daily solar charging and discharging. The integrated battery management system (BMS) continuously monitors voltage, temperature, current, and cell balancing to ensure safe operation and optimized performance over time. The LV architecture allows compatibility with a range of hybrid inverter systems commonly used in residential solar setups. The IP21 rating indicates indoor installation suitability in controlled environments such as utility rooms or battery enclosures. This battery is commonly used in solar self-consumption systems where excess solar energy is stored for later use, improving energy independence and reducing reliance on the grid. Its higher capacity makes it suitable for users with moderate to high energy demand, and its modular design allows for future expansion depending on system configuration and load requirements. |
11.8kWh LiFePO4 LV | 580,000 | — | ↓ Down 4% |
Inverex LV-IP21 16kWh Battery (10Y) Battery The Inverex LV-IP21 16kWh Battery is a high-capacity low-voltage energy storage system designed for residential estates, commercial buildings, and hybrid solar installations with significant energy requirements. With a 16kWh capacity, it provides extended backup power for multiple circuits and high-demand appliances during grid outages or peak consumption periods. Built using lithium iron phosphate (LiFePO4) chemistry, the battery offers strong thermal stability, long cycle life, and reliable deep discharge performance. It is designed for frequent cycling in solar applications, where energy is stored during peak solar production and consumed during nighttime or grid interruptions. The integrated battery management system (BMS) ensures safe operation by monitoring voltage, current, temperature, and cell balancing in real time. The LV system architecture ensures compatibility with hybrid inverter platforms commonly used in residential and commercial solar energy systems. The IP21 rating indicates that it is intended for indoor installation in protected environments such as technical rooms or battery cabinets. This battery is widely used in systems focused on maximizing solar self-consumption, reducing electricity costs, and improving backup reliability. Its modular design allows system expansion, making it suitable for growing energy needs in both residential and small commercial environments. |
16kWh LiFePO4 LV | 760,000 | — | ↓ Down 4.7% |
Inverex LV-IP21 5.1kWh Battery (10Y) Battery The Inverex LV-IP21 5.1kWh Battery is a low-voltage lithium iron phosphate energy storage system designed for residential solar backup and small commercial applications. With a 5.1kWh capacity, it is suitable for powering essential household loads such as lighting, fans, routers, and small appliances during grid outages or periods of low solar production. It is commonly used in hybrid solar systems where daytime solar energy is stored and used at night to improve self-consumption efficiency. This battery utilizes LiFePO4 chemistry, which provides strong thermal stability, long cycle life, and safer operation compared to traditional lead-acid alternatives. The internal battery management system (BMS) continuously monitors voltage, current, temperature, and cell balancing to ensure safe and stable operation. It also protects against overcharging, deep discharge, short circuits, and thermal irregularities, helping extend overall battery lifespan. The LV architecture allows compatibility with a wide range of hybrid and off-grid inverters used in residential solar installations. The IP21 rating indicates that it is intended for indoor installation in protected environments such as utility rooms or dedicated battery enclosures. This battery is often deployed in modular configurations, allowing users to expand storage capacity by adding additional units in parallel. It is widely used in residential solar systems where reliable backup power and improved energy independence are required without moving into large-scale commercial storage systems. |
5.1kWh LiFePO4 LV | 280,000 | — | ↓ Down 4.5% |
Pylontech Force H3 Battery IP20 (10Y) Battery The Pylontech Force H3 Battery IP20 is a high-voltage modular lithium iron phosphate energy storage system designed for residential and small commercial solar installations. It is part of a stackable architecture that allows multiple battery modules to be connected in series, enabling scalable energy storage solutions tailored to varying load requirements. With its high-voltage design, the system improves overall energy efficiency by reducing current losses and optimizing inverter compatibility. This battery is based on LiFePO4 chemistry, known for its thermal stability, safety profile, and long cycle life under frequent charge and discharge conditions. The integrated battery management system (BMS) ensures real-time monitoring of voltage, temperature, current, and cell balancing, which helps maintain stable performance and prolong operational lifespan. It also includes protective mechanisms against overvoltage, overcurrent, and short-circuit conditions. The Force H3 system is typically used with compatible hybrid inverter platforms and is suitable for residential energy storage systems focused on solar self-consumption, backup power, and peak shaving. The IP20 rating indicates indoor installation in controlled environments such as technical rooms or battery cabinets. Its modular design allows system expansion, making it suitable for users with growing energy needs. The system is widely used in solar installations requiring flexible scalability and reliable long-term performance in distributed energy storage applications. |
High Voltage Stackable LiFePO4 | 315,000 | — | ↓ Down 4.2% |
Solar Max LFP-12100 Wall Mounted Battery IP20 (3Y) Battery The Solar Max LFP-12100 Wall Mounted Battery IP20 is a compact lithium iron phosphate energy storage solution designed for small residential solar systems and basic backup applications. With an approximate 1.28kWh capacity, it is suitable for powering essential loads such as lighting, fans, routers, and low-consumption appliances during grid outages or off-grid operation. Its wall-mounted design makes it suitable for space-constrained installations where floor-mounted batteries are not practical. This battery uses LiFePO4 chemistry, which provides high thermal stability, long cycle life, and improved safety compared to traditional lead-acid batteries. The integrated battery management system (BMS) continuously monitors voltage, current, temperature, and cell balancing to ensure safe operation and optimal performance. It also protects against overcharging, deep discharge, and short circuit conditions. The IP20 rating indicates that the battery is intended for indoor use in controlled environments such as utility rooms or enclosed battery spaces. Solar Max systems are commonly used in entry-level residential solar setups where cost-effective lithium storage is preferred. The compact form factor allows for easy installation on walls, freeing up floor space while maintaining accessibility. It is often deployed in small-scale solar backup systems and rural electrification projects where minimal energy storage is required with reliable performance and low maintenance requirements. |
1.28kWh 12V 100Ah LiFePO4 | 72,000 | — | ↓ Down 4.7% |
Solar Max LFP-12100-ECO 1.28kWh Battery IP20 (3Y) Battery The Solar Max LFP-12100-ECO 1.28kWh Battery IP20 is an entry-level lithium iron phosphate energy storage solution designed for small solar systems and basic backup applications. With a nominal capacity of 1.28kWh, it is suitable for powering essential low-energy loads such as lighting, fans, routers, and small electronic devices during power outages or off-grid usage scenarios. This battery is based on LiFePO4 chemistry, which ensures improved thermal stability, long cycle life, and safer operation compared to traditional lead-acid batteries. It is designed to deliver consistent discharge performance while maintaining efficiency over long-term use. The integrated battery management system (BMS) provides essential protections including overcharge prevention, deep discharge protection, short circuit safety, and temperature monitoring. The IP20 enclosure rating indicates that the battery is intended for indoor installation in protected environments such as utility rooms or battery cabinets. The ECO variant is typically positioned as a cost-optimized solution within the Solar Max product line, targeting users who require basic lithium storage without advanced scaling requirements. It is commonly used in small residential solar setups, rural electrification systems, and backup applications where minimal energy storage is sufficient. Its compact size and lightweight construction make it easy to install and maintain, offering a practical upgrade from traditional lead-acid-based backup systems in low-capacity solar installations. |
1.28kWh 12V 100Ah LiFePO4 | 56,000 | — | ↓ Down 4.9% |
Solar Max LFP-24100 2.56kWh Battery IP20 (5Y) Battery The Solar Max LFP-24100 2.56kWh Battery IP20 is a low-voltage lithium iron phosphate energy storage system designed for small residential solar installations and backup power applications. With a 2.56kWh capacity, it is suitable for powering essential loads such as lighting, fans, routers, and small appliances during grid outages or off-grid operation. The 24V configuration makes it compatible with a variety of small hybrid and off-grid inverters. This battery uses LiFePO4 chemistry, which provides strong thermal stability, long cycle life, and improved safety compared to traditional lead-acid batteries. The internal battery management system (BMS) monitors voltage, current, temperature, and cell balancing to ensure safe operation and consistent performance. It also protects against overcharging, deep discharge, and short-circuit conditions. The IP20 rating indicates that the battery is intended for indoor installation in controlled environments such as utility rooms or battery enclosures. Solar Max systems are commonly used in residential solar setups where affordable and reliable lithium storage is required. The 2.56kWh capacity provides more runtime than entry-level systems while still maintaining a compact footprint. It is often deployed in modular configurations where multiple units can be connected in parallel to increase total storage capacity, making it a flexible solution for households looking to gradually expand their solar energy storage systems over time. |
2.56kWh 24V LiFePO4 | 140,000 | — | ↓ Down 4.3% |
Solar Max LFP-48100 5.12kWh Battery IP20 (5Y) Battery The Solar Max LFP-48100 5.12kWh Battery IP20 is a low-voltage lithium iron phosphate energy storage module designed for residential solar systems and backup power applications. With a 5.12kWh capacity, it is suitable for powering essential household loads such as lighting, fans, refrigerators, routers, and small appliances during grid outages or periods of low solar generation. This battery operates on a 48V architecture, making it compatible with a wide range of hybrid and off-grid inverters commonly used in residential solar installations. The LiFePO4 chemistry ensures long cycle life, stable thermal performance, and enhanced safety compared to traditional battery technologies. It is designed for frequent cycling in solar applications where energy is stored during the day and consumed at night. The integrated battery management system (BMS) provides real-time monitoring of voltage, current, temperature, and cell balancing to ensure safe and efficient operation. It also protects against overcharge, deep discharge, and short circuit conditions. The IP20 rating indicates indoor installation suitability in controlled environments. The Solar Max LFP-48100 is widely used in residential solar systems focused on improving energy independence and maximizing solar self-consumption. Its modular design allows users to expand storage capacity by adding additional units in parallel, making it adaptable to growing energy requirements over time. |
5.12kWh 48V LiFePO4 | 245,000 | — | ↓ Down 4.8% |
Solar Max LFP-48300 5.12kwh Battery IP20 (5Y) Battery The Solar Max LFP-48300 5.12kWh Battery IP20 is a high-performance low-voltage lithium iron phosphate energy storage system designed for residential and small commercial solar installations requiring enhanced discharge capability. With a 5.12kWh capacity, it is suitable for essential household and business loads, including lighting, appliances, and backup systems during grid outages. This battery is built on 48V LiFePO4 architecture and is engineered for higher current handling compared to standard variants in the same capacity range. The LiFePO4 chemistry provides long cycle life, strong thermal stability, and improved safety characteristics under deep cycling conditions. The internal battery management system (BMS) continuously monitors voltage, current, temperature, and cell balancing to ensure safe and efficient operation. The IP20 rating indicates that the system is intended for indoor installation in protected environments such as battery rooms or technical enclosures. It is commonly used in solar self-consumption systems where stored energy is utilized during peak demand periods or nighttime usage. The higher discharge design makes it suitable for applications with sudden load spikes. Its modular nature allows for system expansion through parallel configurations, making it a flexible solution for growing energy demands in residential and light commercial solar setups. |
5.12kWh 48V LiFePO4 High Current | 640,000 | — | ↓ Down 4.6% |
BYD Battery Rack Battery The BYD Battery Rack is a structural mounting and integration system designed to house modular lithium battery units in organized configurations for residential, commercial, and industrial energy storage applications. It is engineered to support scalable battery installations, particularly for systems using BYD’s lithium iron phosphate (LiFePO4) modules. The rack provides a secure and structured environment for stacking and connecting multiple battery units in series or parallel configurations depending on system design requirements. This type of rack system plays a critical role in maintaining proper airflow, cable management, and mechanical stability in larger battery installations. It is commonly used in solar energy storage systems where multiple battery modules are combined to achieve higher total capacity. The design ensures compatibility with hybrid inverter systems and centralized battery management architectures. The BYD Battery Rack is typically used in indoor environments such as technical rooms or dedicated energy storage spaces. It allows for efficient organization of battery banks, simplifying maintenance and system expansion. The modular approach enables users to scale energy storage capacity incrementally as energy demand increases. This makes it suitable for commercial buildings, industrial facilities, and large residential solar installations requiring structured and reliable battery deployment infrastructure. |
Battery Rack System | 205,000 | — | ↓ Down 4.1% |
BYD Battery-Box L.V 5.0+ IP20 (10Y) Battery The BYD Battery-Box L.V 5.0+ IP20 is a low-voltage modular lithium iron phosphate energy storage system designed for residential and small commercial solar applications. With a nominal capacity of 5kWh per module, it is widely used in scalable battery configurations where multiple units are combined to achieve higher total storage capacity. This flexibility makes it suitable for both small homes and larger energy systems requiring incremental expansion. The system is based on LiFePO4 chemistry, which provides excellent thermal stability, long cycle life, and safe operation under frequent charge and discharge cycles. The integrated battery management system (BMS) ensures real-time monitoring of voltage, temperature, current, and cell balancing, helping maintain optimal performance and system safety. It also includes protections against overcharging, deep discharge, and electrical faults. The IP20 enclosure rating indicates that the battery is intended for indoor installation in controlled environments such as utility rooms or dedicated energy storage spaces. The BYD Battery-Box series is commonly paired with hybrid inverter systems to enable solar self-consumption, backup power, and peak shaving applications. Its modular architecture allows users to expand storage capacity over time by adding additional battery units. This system is widely recognized for its reliability and is commonly deployed in residential solar installations aiming for long-term energy independence and efficient solar utilization. |
5kWh LV LiFePO4 Modular | 280,000 | — | ↓ Down 4.2% |
BYD BatteryMax LiteIn IP20 (10Y) Battery The BYD BatteryMax LiteIn IP20 is a modular lithium iron phosphate energy storage system designed for residential and small commercial solar applications requiring scalable and reliable battery capacity. It is engineered to work within BYD’s modular storage ecosystem, allowing users to combine multiple units to achieve higher energy storage levels depending on system requirements. This makes it suitable for both entry-level solar setups and expandable energy storage systems. The battery is based on LiFePO4 chemistry, which offers high thermal stability, long cycle life, and consistent performance under frequent charging and discharging cycles. The integrated battery management system (BMS) ensures continuous monitoring of voltage, temperature, current, and cell balancing to maintain safe and efficient operation. It also provides protection against overcharging, deep discharge, and short circuit conditions. The IP20 rating indicates that the system is intended for indoor installation in controlled environments such as utility rooms or technical enclosures. The BatteryMax LiteIn is typically integrated with hybrid inverter systems to support solar self-consumption, backup power, and load shifting applications. Its modular design allows for future expansion, making it suitable for users whose energy requirements may increase over time. It is widely used in residential solar installations where reliability, scalability, and efficient energy management are key priorities for long-term system planning. |
Modular LiFePO4 Storage System | 480,000 | — | ↓ Down 4.7% |
Chint CPS 5kWh HV Stackable Battery IP20 (5Y) Battery The Chint CPS 5kWh HV Stackable Battery IP20 is a high-voltage modular lithium iron phosphate energy storage system designed for residential and small commercial solar applications. Each 5kWh module can be stacked in series to form higher-capacity energy storage systems, making it suitable for scalable installations that require flexible energy expansion over time. This battery uses LiFePO4 chemistry, which ensures strong thermal stability, long cycle life, and safe operation under frequent charge and discharge conditions. The high-voltage architecture improves system efficiency by reducing current flow losses and enhancing compatibility with modern hybrid inverter systems. The integrated battery management system (BMS) monitors voltage, current, temperature, and cell balancing in real time to ensure safe and optimized operation. The IP20 rating indicates that the system is intended for indoor installation in controlled environments such as technical rooms or battery enclosures. The Chint CPS system is commonly used in solar energy storage setups focused on self-consumption, backup power, and peak shaving applications. Its modular stackable design allows users to increase storage capacity gradually based on energy requirements. This makes it suitable for residential estates, commercial buildings, and small industrial facilities where scalable and reliable energy storage is required for long-term solar integration. |
5kWh HV Stackable LiFePO4 | 314,000 | — | ↓ Down 4.8% |
Dyness Power Box G2 Battery IP20 (7Y) Battery The Dyness Power Box G2 Battery IP20 is a modular lithium iron phosphate energy storage system designed for residential and commercial solar applications requiring scalable and reliable backup power. It is engineered as part of Dyness’s second-generation storage solutions, focusing on improved integration, safety, and expandability. The system allows multiple modules to be connected to achieve higher total storage capacity depending on user requirements. This battery uses LiFePO4 chemistry, which provides long cycle life, strong thermal stability, and consistent performance under frequent cycling conditions. The integrated battery management system (BMS) continuously monitors voltage, current, temperature, and cell balancing to ensure safe and efficient operation. It also includes protective mechanisms against overcharging, deep discharge, and short circuit faults. The IP20 enclosure rating indicates that the system is intended for indoor installation in controlled environments such as utility rooms or energy storage cabinets. The Dyness Power Box G2 is commonly used in solar self-consumption systems, backup power setups, and peak shaving applications. Its modular architecture enables users to scale storage capacity over time, making it suitable for both residential and light commercial installations. It is widely deployed in systems where flexibility, reliability, and long-term energy management efficiency are key priorities. |
Modular LiFePO4 Energy Storage | 525,000 | — | ↓ Down 4.3% |
Dyness Power Brick 16kWh (314Ah 51.2V) (IP20) (7Y) Battery The Dyness Power Brick 16kWh (314Ah 51.2V) IP20 is a high-capacity lithium iron phosphate energy storage module designed for residential estates, commercial buildings, and hybrid solar installations requiring substantial backup power. With a 16kWh nominal capacity, it is capable of supporting multiple household circuits or essential commercial loads during grid outages or peak demand periods. This battery is built on LiFePO4 chemistry, which ensures strong thermal stability, long cycle life, and reliable performance under deep discharge conditions. The 51.2V architecture provides compatibility with a wide range of hybrid inverter systems commonly used in residential and commercial solar setups. The integrated battery management system (BMS) continuously monitors voltage, current, temperature, and cell balancing to ensure safe and optimized operation. The IP20 rating indicates that the system is intended for indoor installation in controlled environments such as technical rooms or battery enclosures. The Dyness Power Brick is commonly used in solar self-consumption systems where excess solar energy is stored during the day and used at night or during peak tariff periods. Its high-capacity design makes it suitable for users with significant energy demands, while its modular ecosystem allows for future expansion. It is widely deployed in environments requiring reliable, long-duration backup and efficient solar energy utilization. |
16kWh 314Ah 51.2V LiFePO4 | 700,000 | — | ↓ Down 4% |
Prices are indicative dealer rates for cash purchase, excluding installation. These may flucturate quickly depending upon location
