What’s needed is not just more hardware but a better, integrated brain that joins everything together. It offers Indonesian operators full-stack visibility, live control, and long-term regulatory and commercial readiness for scaling. That's precisely what Pingalax OS does.

What is Pingalax OS?

Pingalax OS is a full-stack energy management system that aims to connect EV chargers, ESS units, PV inverters and real-time applications into an entire orchestrated solution. You’re not simply accessing a dashboard or monitoring; you’ve got this control layer that lets energy infrastructure be smart and reactive.

They need to act intelligently in a given environment. Developed natively in Indonesia, the Pingalax OS can handle OCPP operations, is OCPP compliant (Permen ESDM No.1/2023), and is prepared for TKDN.

Regulation of SPKLU projects:

• Public-facing charging stations (SPKLU) should comply with Permen ESDM No.1/2023 and interoperable solutions in the realms of billing, monitoring and mobile app use have been mandated through OCPP.
• Pingalax OS and EI Charge App operate under OCPP 1.6 and 2.0.1 making it “compliant.”.

Why a smart OS layer?

Indonesia’s clean energy ecosystem is expanding rapidly, but also growing more fragmented. Different vendors are deploying EV chargers. Solar panels are installed separately. Electric battery systems are up and running. With no integrated brain, they often operate in isolation.

This leads to five fundamental difficulties:

• Interoperability: The hardware of different vendors often can’t talk to each other or optimize together. This means that a solar inverter powers, without waste, in the battery, which is already full.
• Manual Integration: A technician needs to log into separate systems just to know the flow of power, schedule charges, diagnose problems like increasing human error and response time.
• Energy Waste: Without a load management system in place to coordinate peak-hours charging or load surges on the grid, high price tariffs and energy wasted become the result.
• Regulatory Readiness Scenarios, Weakness and Limitation: As OCPP and TKDN standards are required by Permen ESDM No.1/2023, systems without open communication protocols or localization support are at risk to non-compliance with the regulation.
• Scalability blockers: Systems that need each new charger or solar panel to be configured manually or install additional tools are slow and expensive to scale. Smart OS layer Pingalax OS so relieves those pains; it offers a central, live AI-influenced coordination model in which all the infrastructure actually performs as one, not separated from one another.

What Pingalax OS Controls

Pingalax OS is more than a simple monitoring tool. It’s a command center that exists in real time. Its strength is really in how it both orchestrates and controls many kinds of energy assets at the same time:

1. EV Chargers (AC & DC): Facilitates charging via a time- and load-based solution. Allows Dynamic Load Balancing (DLB) for charging based on usage. Identifies faults (cable overheating, overvoltage) and provides remote resets or safety cut-offs.
2. ESS units (Energy Storage Systems): Tasks the grid and solar when to charge or release when it is in its prime use. Supports “solar-first” logic: store daytime generation for nighttime use. Monitors SoC, DoD, and temperature for the battery.
3. PV Inverters: Directs solar to the best path, including building load, ESS, and grid export. Sets power factor and voltage to the grid level. Maintains adherence to the export restrictions of PLN grid.
4. User & Operator Apps: Live updates for charger status, session history and power consumption. Operator Dashboard has billing tools, remote diagnostics and scheduling capabilities.
5. OCPP Backend Integration: Ensures the communication of all devices is done using OCPP 1.6 or 2.0.1. Is OCPP compliant with all plug & play chargers or apps. Logs data for regulatory audits and real-time reporting.

How Pingalax OS Works?

Constructed by modular engineering software, Pingalax OS can provide flexibility and scalability:

1. Device Layer. Performs physical connection to Pingalax & 3rd-party devices. Utilizes OCPP (EV chargers), Modbus (ESS & PV), & other traditional protocols. Automatically detects any new devices, adds them to the topology map and so on.
2. Control Layer. It is like a smart control program. It follows these regulations: Power on solar systems will be preferred over the grid. Try to refrain from charging more than 30kW when grid load is high. Call if ESS temperature goes over a certain level. Enable automation of decision-making without operator involvement.
3. Data & Insights Layer. Gathers data across all connected devices and connects it to: Operator dashboard. User mobile apps. Regulatory API endpoints (or SPKLU audit data). It is also rffers advanced analytics: usage trends, efficiency scores, fault history.
4. Deployment Layer. It supports both on-premise environment and cloud setups. Indonesia's deployments can run locally, relevant for both government/PLN projects for data sovereignty and compliance.
5. Integration Layer. Exposes APIs that allow: (1) Third-party billing systems to fetch usage data (2) Static monitoring in local dashboards to show Pingalax device state. Operators can build their own user interfaces if required.

How Pingalax OS Works?

Constructed by modular engineering software, Pingalax OS can provide flexibility and scalability:

1. Device Layer. Performs physical connection to Pingalax & 3rd-party devices. Utilizes OCPP (EV chargers), Modbus (ESS & PV), & other traditional protocols. Automatically detects any new devices, adds them to the topology map and so on.
2. Control Layer. It is like a smart control program. It follows these regulations: Power on solar systems will be preferred over the grid. Try to refrain from charging more than 30kW when grid load is high. Call if ESS temperature goes over a certain level. Enable automation of decision-making without operator involvement.
3. Data & Insights Layer. Gathers data across all connected devices and connects it to: Operator dashboard. User mobile apps. Regulatory API endpoints (or SPKLU audit data). It is also rffers advanced analytics: usage trends, efficiency scores, fault history.
4. Deployment Layer. It supports both on-premise environment and cloud setups. Indonesia's deployments can run locally, relevant for both government/PLN projects for data sovereignty and compliance.
5. Integration Layer. Exposes APIs that allow: (1) Third-party billing systems to fetch usage data (2) Static monitoring in local dashboards to show Pingalax device state. Operators can build their own user interfaces if required.

How Pingalax OS Works?

Constructed by modular engineering software, Pingalax OS can provide flexibility and scalability:

1. Device Layer. Performs physical connection to Pingalax & 3rd-party devices. Utilizes OCPP (EV chargers), Modbus (ESS & PV), & other traditional protocols. Automatically detects any new devices, adds them to the topology map and so on.
2. Control Layer. It is like a smart control program. It follows these regulations: Power on solar systems will be preferred over the grid. Try to refrain from charging more than 30kW when grid load is high. Call if ESS temperature goes over a certain level. Enable automation of decision-making without operator involvement.
3. Data & Insights Layer. Gathers data across all connected devices and connects it to: Operator dashboard. User mobile apps. Regulatory API endpoints (or SPKLU audit data). It is also rffers advanced analytics: usage trends, efficiency scores, fault history.
4. Deployment Layer. It supports both on-premise environment and cloud setups. Indonesia's deployments can run locally, relevant for both government/PLN projects for data sovereignty and compliance.
5. Integration Layer. Exposes APIs that allow: (1) Third-party billing systems to fetch usage data (2) Static monitoring in local dashboards to show Pingalax device state. Operators can build their own user interfaces if required.

Pingalax OS in Real Projects

Pingalax OS was created with applications we actually use to consider. Some examples are in reality:

1. EV Fleet Hubs (logistics operator): EV charging every night (priority logics) (most-used vehicles go first). Employed ESS for mitigation of PLN peak tariffs 5–10 PM periods.
2. Commercial Buildings (shopping malls, offices): Connect rooftop PV to battery storage and a myriad of EV chargers. Monitor system health, load and plan servicing with Pingalax OS. Work with remote access portals.
3. Smart Industrial Parks with Remote Deployment of Solar Farms, Industrial Power Solutions (EMSP), and Fleet Charging of Electric Vehicles. Pingalax operates in the role of Virtual Power Plant (VPP) controller: it responds to grid signals and adjusts accordingly the flow of power.
4. SPKLU Developers and Pingalax OS ensure that every charger is connected, available, and manageable by a distant user. Facilitate O&M teams to address failures and updates without physically being present at your site.

Pingalax OS launch is not just a software release. It’s the technology behind Indonesia’s clean energy transition. It directly supports nation’s objectives via a complete regulatory compliance that meets OCPP, TKDN 40%, and Permen ESDM No.1/2023 while providing real-time data logging and audit-ready reporting.

Tailored for localization and sovereignty, Pingalax OS can perform hosted on Indonesian servers eliminating the need to implement in foreign cloud platforms (essential for PLN and government-backed projects). The system can also save energy through AI-focused load balancing, peak shaving, and advanced scheduling, supporting the operators by reducing electricity costs and increasing efficiency.

The system, crafted for scalability, integrates new chargers, solar arrays and batteries without swapping out older systems. Ultimately, Pingalax OS empowers local players with a single platform integrated into a coherent ecosystem — fully controlling the entire journey from hardware to software, fully leveraging the capabilities of a diverse ecosystem to meet Indonesia’s ongoing infrastructure needs.

Pingalax OS is infrastructure-grade technology designed for Indonesia‘s energy future. In contrast to typical platforms, it's co-developed alongside Pingalax hardware (EV chargers, ESS units, PV inverters), and a comprehensive integration with the entire solution. It is all localized from a fundamental idea and also will be compatible with TKDN-enabled interfaces, billing system in Indonesian and Bahasa Indonesia user experience. Supported by Pingalax’s own in-house chip R&D, we designed the entire stack from chip to cloud to be compatible, secure and long-reliable.

Essentially Pingalax OS is more than just a control layer, it is the digital backbone of Indonesia’s smart energy infrastructure. Please contact us directly to ensure live demos, access to documentation and or co-production opportunities for Pingalax OS to power your clean energy solution or EV network. Together and locally, let’s build the future!