Escalabilidad energética: Sol-Ark: Flexible, inteligente, confiable
Escalabilidad energética: Sol-Ark: Flexible, inteligente, confiable
As energy needs grow and projects demand greater reliability, having the capacity to meet these demands is a challenge that Sol-Ark has been aware of since its inception. Since the Sol-Ark 12K-2P-N launched in 2019, Sol-Ark hybrid inverters have had the ability to be stacked in both two-phase and three-phase modes
Why is this good?
Parallel inverters have become a key solution for advanced residential, commercial, and industrial applications.
This architecture allows for scaling power, improving system redundancy, and adapting to critical loads without completely redesigning the installation. Understanding how they work, when to use them, and how to plan them correctly is essential for achieving efficient and future-proof systems.
In Latin America, energy projects are best approached with a long-term vision. This way, in addition to meeting immediate energy needs, the design can adapt to increased consumption, new technologies, and evolving energy scenarios. Following this philosophy, Sol-Ark residential systems are positioned as future-proof solutions, ready to scale with your home or business.
Inversores Sol-Ark conexiones en Paralelo
Parallel connections allow multiple inverters to operate as a single, synchronized system, sharing load and generation. Depending on the design, they can be configured to:
- Increase output power
- Support three-phase loads
- Operate in isolated, hybrid, or grid-connected systems
- Integrate with common battery banks
Proper communication between inverters and adequate distribution of electrical protections are essential to ensure stability, load balancing, and compliance with electrical regulations.
Ejemplo usando un Sol-Ark® 15K
| # de inversores en paralelo | Potencia de salida continua con FV (kW) | Potencia de salida continua con baterías (kW) | Corriente de paso (A) | Potencia pico 5 seg (kVA) |
|---|---|---|---|---|
| 1 | 15 | 12 | 200 | 24 |
| 2 | 30 | 24 | 400 | 48 |
| 3 | 45 | 36 | 600 | 72 |
| 4 | 60 | 48 | 800 | 96 |
| 5 | 75 | 60 | 1000 | 120 |
| 6 | 90 | 72 | 1200 | 144 |
Nota: En pantallas pequeñas, la tabla se desplaza horizontalmente para mantener legibilidad.
| # de inversores en paralelo | Potencia de salida continua con FV (kW) | Potencia de salida continua con baterías (kW) | Corriente de paso (A) | Potencia pico 5 seg (kVA) |
|---|---|---|---|---|
| 1 (solo 2 fases) | 13 | 12 | 200 | 24 |
| 2 (3 fases, desbalanceado) | 26 | 24 | 400 | 48 |
| 3 | 39 | 36 | 400 | 72 |
| 6 | 78 | 72 | 800 | 144 |
| 9 | 117 | 108 | 1200 | 216 |
| 12 | 156 | 144 | 1600 | 288 |
* En sistemas trifásicos, se recomienda usar un probador de rotación de fases
** Para más información consulta tu manual de instalador o llama a nuestro equipo de soporte técnico.
MySolArk lo hace todo!
MySolArk allows you to monitor multiple inverters in parallel from a single, intuitive platform. Users can view solar production, consumption, battery status, and system operation in real time, ensuring continuous control and informed decision-making in scalable installations.
Furthermore, the platform centralizes alerts, data history, and performance data per unit, facilitating diagnostics and maintenance. This allows installers and operators to manage complex systems with greater efficiency, reliability, and visibility, even in critical projects requiring high energy availability.
Aplicaciones de las instalaciones en paralelo
Inverters connected in parallel are recommended when the total load exceeds the capacity of a single inverter, as is the case in commercial buildings, industrial facilities, or farms where electrical equipment increases over time. They are also crucial in applications that demand high energy availability, such as hospitals, clinics, or data centers, where an interruption is not an option.
This configuration is especially useful in projects that will grow in stages, such as industrial parks, commercial developments or agribusinesses, allowing you to start with a base capacity and expand the system as new areas, machinery or processes are integrated.
In summary, when an application demands constant power, planned growth, and real backup, parallel inverters become a strategic solution for commercial, industrial, and critical infrastructure projects.
