Pingalax OS is not just a control dashboard. In an energy system where EV chargers, energy storage systems (ESS), and PV inverters operate in silos, true efficiency is lost. What’s needed is not just more hardware but a smarter, integrated brain that connects it all. It gives Indonesian operators full-stack visibility, live control, and long-term readiness for regulatory and commercial scaling.

That’s exactly what Pingalax OS delivers.

What is Pingalax OS?

Pingalax OS is a full-stack energy management platform designed to unify EV chargers, ESS units, PV inverters, and real-time applications into a single orchestrated system. It’s not just a dashboard or monitoring tool; it’s the control layer that allows energy infrastructure to act intelligently and adaptively.

Built natively for the Indonesian market, Pingalax OS supports OCPP protocols, enables regulatory compliance (Permen ESDM No.1/2023), and is localization-ready for TKDN requirements.

Regulatory Compliance for SPKLU Projects:

• Permen ESDM No.1/2023 requires public charging stations (SPKLU) to support interoperability, billing, monitoring, and mobile app integration via OCPP.>
• Pingalax OS and EI Charge App support OCPP 1.6 and 2.0.1, so you can confidently say it’s “compliant.”

Why a Smart OS Layer is Critical

Indonesia’s clean energy ecosystem is growing fast but it’s also becoming increasingly fragmented. EV chargers are deployed by different vendors. Solar panels are added independently. Battery systems are installed with limited visibility. Without a unifying brain, these systems often function in isolation.

This creates five key challenges:

• Lack of Interoperability: Hardware from different vendors often can't communicate or optimize together. For example, a solar inverter may generate power while the battery is already full, wasting energy potential.
• Manual Coordination: Operators must log into separate systems just to monitor power flow, schedule charging, or diagnose issues such as increasing human error and response time.
• Inefficient Energy Use: Without coordinated load management, peak-hour charging or grid demand surges lead to high tariffs and energy waste.
• Limited Regulatory Readiness: As OCPP and TKDN standards become mandatory under Permen ESDM No.1/2023, systems that lack open communication protocols or localization support risk non-compliance.
• Scalability Blockers: When each new charger or solar panel requires manual configuration or separate tools, growth becomes slow and expensive.

A Smart OS layer, like Pingalax OS, eliminates these pain points; It provides a centralized, real-time, AI-driven coordination system that makes infrastructure work as one, not as isolated devices.

What Pingalax OS Controls

Pingalax OS is not just a monitoring platform. It’s a real-time command center. Its core strength lies in how it controls and orchestrates multiple types of energy assets simultaneously:

EV Chargers (AC & DC):

• Enables time-based and load-based charging.
• Supports Dynamic Load Balancing (DLB), which distributes available power across chargers based on usage patterns.
• Detects faults (cable overheating, overvoltage) and applies remote resets or safety cut-offs.

ESS Units (Energy Storage Systems):

• Controls when to charge from the grid or solar and when to discharge during peak hours.
• Supports "solar-first" logic: store daytime generation for night usage.
• Monitors SoC (State of Charge), DoD (Depth of Discharge), and temperature for battery health.

PV Inverters:

• Routes solar energy to the most efficient path: building load, ESS, or grid export.
• Adjusts power factor and voltage settings to match grid conditions.
• Ensures compliance with PLN grid export limitations.

User & Operator Apps:

• Real-time data on charger status, session history, and power usage.
• Operator dashboard includes billing tools, remote diagnostics, and scheduling features.

OCPP Backend Integration:

• Ensures every device communicates using OCPP 1.6 or 2.0.1.
• Enables Plug & Play compatibility with any OCPP-compliant charger or app.
• Logs data for regulatory audits and real-time reporting.

How Pingalax OS Works?

Pingalax OS is designed with modular software engineering, allowing adaptability and scalability. Here’s how each layer contributes to performance:

Device Layer

• Handles physical connection to Pingalax and third-party devices.
• Uses OCPP (EV chargers), Modbus (ESS & PV), and other standard protocols.
• Detects new devices automatically and adds them to the topology map.

Control Layer

• This is the logic engine. It executes rules such as:
• Prioritize solar over grid.
• Avoid charging more than 30kW if grid load is high.
• Send alert if ESS temperature exceeds threshold.
• Enables automated decision-making without operator intervention.

Data & Insights Layer

• Aggregates data from all connected devices and streams it to:
• Operator dashboard.
• User mobile apps.
• Regulatory API endpoints (or SPKLU audit data).
• Provides advanced analytics: usage trends, efficiency scores, fault history.

Deployment Layer

• Supports both cloud and on-premise setups.
• For data sovereignty and compliance, Indonesian deployments can run locally important for government or PLN projects.

Integration Layer

• Exposes APIs that allow:
• Third-party billing systems to pull usage data.
• Local dashboards to display Pingalax device status.
• Operators to build their own user interfaces if needed.

Pingalax OS in Real Projects

Pingalax OS has been designed with actual deployment scenarios in mind. Some real-world examples include:

• EV Fleet Hubs (logistics operators):
  • Charging multiple EVs overnight with priority logic (most-used vehicles charge first).
  • Using ESS to offset PLN peak tariffs during 5–10 PM
• Commercial Buildings (shopping malls, offices):
  • Integrate rooftop PV with battery storage and multiple EV chargers.
  • Use Pingalax OS to monitor system health, manage load, and schedule maintenance.
• Smart Industrial Parks:
  • Manage distributed energy sources: solar farms, industrial ESS, EV fleet charging.
  • Pingalax OS acts as a Virtual Power Plant (VPP) controller; responding to grid signals and optimizing energy flow.
• SPKLU Developers:
  • Pingalax OS ensures every charger is connected, visible, and remotely manageable.
  • Enables O&M (Operations & Maintenance) teams to handle faults and updates without being on-site.

The launch of Pingalax OS is more than a software release. It’s a strategic tool for Indonesia’s clean energy transition. It directly supports national goals through full regulatory compliance, meeting OCPP, TKDN 40%, and Permen ESDM No.1/2023 standards, while offering real-time data logging and audit-ready reporting.

Designed for localization and sovereignty, Pingalax OS can run on Indonesian servers, eliminating dependence on foreign cloud platforms (a critical requirement for PLN and government-backed projects.)

It also enables energy cost optimization through AI-driven load balancing, peak shaving, and smart scheduling, helping operators lower electricity costs and improve efficiency.

Built for scalability, the system integrates new chargers, solar arrays, and batteries without replacing legacy systems. Most importantly, Pingalax OS gives local players ownership of their energy ecosystem, combining transparent integration with full control from hardware to software tailored for Indonesia’s long-term infrastructure needs.

Pingalax OS is infrastructure-grade technology, purpose-built for Indonesia’s energy future. Unlike generic platforms, it’s co-developed alongside Pingalax hardware such as EV chargers, ESS units, and PV inverters, ensuring seamless integration across every component. The system is designed for localization from the ground up, with support for TKDN-compliant interfaces, Indonesian billing systems, and Bahasa Indonesia user experiences. Backed by Pingalax’s in-house semiconductor R&D, the entire stack from chip to cloud is engineered for compatibility, security, and long-term reliability.

Pingalax OS is not just a control layer; it is the digital backbone of Indonesia’s smart energy infrastructure.

To explore how Pingalax OS can power your clean energy project or EV network, reach out to our team for a live demo, documentation access, or partnership opportunities. Let’s build the future together, and locally.