Virtual Power Plant (VPP) & Smart Grid Services
Applicated Reference
Wind power Station
PV Power Station
Generator Factory
Island
Large-scale
Industrial User
| Section | Item | Details |
|---|---|---|
| 1. Communications Architecture |
Edge Controllers | Installed with each BESS and PV system; handle local telemetry, protective functions, and command execution. |
| Protocols Supported | IEC 61850, Modbus TCP/IP, DNP3, OCPP (for EV chargers), secure HTTPS APIs. |
|
| Data Flow | Asset telemetry → Edge controller → Secure gateway → Cloud VPP platform → Grid/market operator. | |
| Security | TLS encryption, VPN tunneling for sensitive channels, role-based access control (RBAC), audit logging. | |
| 2. Control Logic | Priority Dispatch |
|
| Peak Shaving Algorithm | Predicts load patterns using historical data + weather forecasts; discharges BESS strategically to reduce demand charges. | |
| Backup / Islanding Mode | Automatically isolates site during grid failure and dispatches BESS to maintain critical loads. | |
| 3. VPP Participation Flow (Demand Response event) |
1) Notification | Market operator sends DR event signal. |
| 2) Aggregation | VPP platform aggregates capacity from multiple sites. | |
| 3) Dispatch | Commands sent to edge controllers at each site to reduce load / discharge BESS. | |
| 4) Monitoring | Real-time feedback ensures compliance. | |
| 5) Settlement | Metered data reconciled and revenue distributed to participating sites. | |
| 4. Example Use Case | Site | Commercial campus with 2 MW BESS + 1.5 MWp PV. |
| Performance | Shaves 25% of peak load; participates in frequency regulation markets. | |
| Resilience | Provides ~4 hours of critical backup power. | |
| 5. Compliance & Standards | IEC 62933 | BESS safety. |
| IEEE 1547 | Interconnection requirements. | |
| IEC 61850 | Communications and data modeling. | |
| ISO 27001-aligned | Cybersecurity practices (risk management, access control, incident response). |
We design, supply and implement end-to-end Virtual Power Plant (VPP) and smart-grid solutions built around our industry-grade Battery Energy Storage Systems (BESS), PV and power electronics. Our approach transforms fleets of distributed resources into a single, grid-ready energy asset that reduces costs, creates revenue streams, and strengthens resilience — while remaining simple for facility managers and procurement teams to buy and operate.
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See how we work
- What we deliver — full-service VPP & smart grid capability
- Why choose an integrated VPP + smart grid approach
- Key capabilities (technical & business)
- Typical customer outcomes
- How we work (engagement model)
- Differentiators
- Call to action
What we deliver — full-service VPP & smart grid capability
Supply
Grid-compatible BESS (modular, scalable), inverters, communications gateways, and grid-interfacing hardware — all with embedded smart-grid functionality. Every piece of equipment ships ready to be part of a VPP.
Implementation
Site assessment, engineering, permitting, grid interconnection, installation and commissioning — delivered by our certified EPC partners and our project delivery team.
Aggregation & Orchestration
A cloud-native VPP platform that aggregates assets (BESS, PV, CHP, flexible loads, EV chargers) into a coordinated resource, with real-time dispatch, market bidding and telemetry.
Operations & Services
24/7 remote monitoring, predictive maintenance, performance guarantees, and market operations support (demand response, frequency regulation, energy arbitrage).
Integration
APIs and standardized protocols (edge controllers, OCPP/IEC/Modbus/DNP3 where relevant) for seamless integration with BEMS, SCADA, and utility systems.
Why choose an integrated VPP + smart grid approach
- Cost reduction plus new revenue: Reduce energy procurement costs through on-site optimization and time-of-use arbitrage — and generate income by participating in demand response, ancillary services, and capacity markets where available.
- Reduced grid dependency & predictable CAPEX/OPEX: Smooth peak demand to avoid costly grid upgrades and recover predictable value over the system lifetime.
- Resilience without compromise: Maintain critical operations during outages with prioritized backup dispatch and islanding modes.
- Operational simplicity for non-technical teams: Our platform translates complex grid actions into simple, stakeholder-facing KPIs and offers policy-driven automation so facility managers can “set and forget”.
- Future-proof: Modular hardware and open APIs mean you can scale capacity, add new resource types, or enroll in new markets as opportunities evolve.
Key capabilities (technical & business)
- Real-time telemetry & two-way control: Low-latency communications and secure two-way control at the device edge for reliable dispatch and safe grid interaction.
- Market participation & optimization: Automated bidding for demand response and ancillary services; algorithmic optimization for time-of-use and dynamic tariffs.
- Fleet orchestration: Aggregate geographically dispersed assets into a single virtual resource for higher value and market access.
- Cybersecurity & compliance: Hardened communications, role-based access, and logging that meet industrial cybersecurity best practices.
- Modular BESS design: LFP and other chemistry options, hot-swappable units, and flexible topologies to match CAPEX profiles and project objectives.
- Analytics & reporting: Executive dashboards, custom KPIs, automated invoicing for energy services, and meter-grade reconciliation for settlements.
Typical customer outcomes
- Commercial campus: 20–40% reduction in peak demand charges, on-site resiliency, and new revenue from demand response.
- Industrial facility: Avoided grid reinforcement costs, tighter control of energy spend, and improved operational uptime.
- Utility partners / aggregators: Rapidly scalable DER fleet aggregation with predictable performance and compliance reporting.
How we work (engagement model)
- Feasibility & value assessment: Site audit, baseline energy model, and a 3–5 year financial projection showing CAPEX, OPEX and expected revenue streams.
- Design & procurement: Sizing, equipment selection, grid studies, and procurement of standardized components with embedded smart-grid functions.
- Deployment & commissioning: Turnkey installation, testing, and interconnection support.
- VPP onboarding & operations: Asset aggregation, market enablement, ongoing optimization, and SLA-backed operations.
Differentiators
- Every unit is a grid citizen: Smart-grid functionality is embedded across our product portfolio so projects deploy faster and operate reliably.
- End-to-end accountability: Single point of responsibility from supply to market operations — minimizing vendor friction and accelerating time-to-value.
- Business-first optimization: We align dispatch logic to your commercial objectives (cost savings, revenue, resilience) rather than generic technical targets.
- Scalable, vendor-agnostic integration: Our orchestration works with third-party DERs and utility systems, protecting your prior investments.
Call to action
Ready to convert your distributed assets into a revenue-generating, resilient energy platform? Request a complimentary feasibility study and a custom 5-year business case. We’ll show projected savings, revenue opportunities, and the practical deployment roadmap for your site.
Worldwide shipping
We ship our equipment worldwide.
Contact us and we will solve any issue concerning logistics.