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Intelligent Energy Systems

Energy and battery
systems, designed for performance reliability scale efficiency infrastructure

Systems and battery platforms for infrastructure, industry, and mobility — built around operating requirements.

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Systems across
4+
Storage chemistries
6+
Application sectors
3
Geographies
Technology platforms
LFP
Lithium iron phosphate
Na+
Sodium-ion
Zn
Zinc-based
Data Centers Renewables Telecom Mobility & Aerial Industrial Critical Infrastructure GCC & International
About Energaxis

Powering intelligent
energy flow.

Energaxis is a brand of Padmaja GreenTech Pvt Ltd. The company designs and delivers energy storage systems and battery platforms across infrastructure and mobility applications.

Work spans grid-scale storage, industrial systems, and application-specific battery engineering — built around operating requirements rather than standard configurations.

Systems are developed across lithium-ion (including LFP), sodium-ion, zinc-based, and long-duration storage technologies, depending on application.

LFP · Lithium-ion Sodium-ion Zinc-based Long-duration storage EPC execution Custom engineering
Energy Storage Systems

Storage systems for
every infrastructure load.

Grid & Renewable

Grid & Renewable Systems

Storage integrated with solar and grid infrastructure for large-scale dispatch and load balancing.

4–10+ hour system configurations Peak shifting, dispatch, and load balancing Lithium-ion and long-duration combinations
C&I Storage

Commercial & Industrial Systems

Behind-the-meter energy systems aligned to load profiles and operating cycles for facilities of all scales.

Peak demand management and backup Aligned to load profiles and operating cycles Lithium-ion or sodium-ion configurations
Mission-Critical

Critical Infrastructure Systems

Redundancy-driven storage for data centers, telecom, and uptime-critical environments.

Redundancy-driven system design Advanced safety and thermal management Stable continuous operation
Distributed & Remote

Distributed & Remote Systems

Modular and field-deployable systems for telecom towers, microgrids, and off-grid deployments at scale.

Telecom towers, microgrids, off-grid Modular and field-deployable Designed for scale and remote conditions
Battery Platforms

Application-first
chemistry selection.

01 — Aerial

Aerial Systems & Drones

High C-rate discharge, optimized weight-to-power ratio, fast charge/discharge cycles, and compact thermal management for UAV and drone platforms.

High C-rateDischarge config
Compact TMSThermal mgmt
02 — Mobility

Rail & Mobility Systems

High cycle life configurations with vibration-resistant pack design, integrated BMS and thermal control for stable performance under continuous load.

High cycle lifePack configuration
Integrated BMSThermal control
03 — Industrial

Industrial Battery Systems

Continuous and intermittent discharge profiles, ruggedized for industrial environments, with scalable configurations for machinery integration.

RuggedizedIndustrial env
ScalableConfiguration
04 — Engineering

Custom Battery Engineering

End-to-end pack design — cell selection across Li-ion, sodium-ion, zinc-based, pack architecture, thermal management, BMS, and enclosure design.

Multi-chemistryCell selection
Full BMSSafety systems
Applications

Every sector.
Every load profile.

Data Centers
Continuous load, uptime-critical
Renewables
Energy shifting and dispatch
Commercial & Industrial
Cost optimization and continuity
Telecom Infrastructure
Distributed and remote uptime
Utilities
Grid-scale balancing
Mobility & Transport
Railways and electrified systems
Aerial Systems
Drone platforms, high-power
International EPC
GCC, Southeast Asia
Delivery

One team. Full scope.

Energaxis delivers energy storage and battery systems across engineering, supply, and execution — either as a complete scope or defined project components.

01
Engineering
System sizing based on load and usage Battery and chemistry selection Electrical design and system architecture
02
Supply
Battery systems and enclosures PCS, EMS, and control systems Associated balance-of-system components
03
EPC Execution
Installation and system integration Commissioning and performance validation Final handover
04
Defined Scope
Engineering, supply, or execution independently Structured to fit existing delivery teams Partial and advisory roles available
Capabilities

Built to deliver
at every layer.

01
System Design

Application-based architecture, including chemistry selection and sizing for each specific operating environment.

02
Battery Engineering

Pack design including cell selection, series/parallel configuration, BMS architecture, and thermal systems.

03
Hybrid Systems

Integration of multiple storage technologies within a single system — solar, genset, grid, and storage combined.

04
Control Systems

EMS and BMS integration for real-time monitoring, performance management, and system-level control.

05
EPC & Execution

Delivery through direct execution or partner-led EPC models — civil, electrical, commissioning, and handover.

06
Deployment

Execution across distributed and large-scale projects, including cross-border support in GCC and Southeast Asia.

Projects

Deployed across
sectors and geographies.

Data Center
UPS Replacement — LFP BESS

Replacement of four 850 kVA UPS systems with LFP-based BESS for continuous load support and improved efficiency.

Bangalore, India
Renewable Storage
Solar + Storage — Level 4 Data Center

BESS deployment within a solar park supplying a Level 4 data center, focused on peak load management and energy shifting.

Hyderabad, India
Corporate
Diesel Replacement — International Operator

Replacement of diesel generator backup with BESS, reducing diesel dependency and improving operational efficiency.

International
GCC
Backup System Replacement — GCC

BESS as alternative to diesel-based backup systems, aligned to continuous power requirements and reliability standards.

GCC Region
Telecom
Lead-Acid to Lithium — Tower Network

Replacement of lead-acid batteries across telecom tower sites with lithium-based power packs for improved lifecycle.

Bangalore, India
Systems defined by application requirements.

Selecting the right chemistry, architecture, and control strategy for each use case.

Contact

Let's engineer
the right system.

Discuss a project, request technical specifications, or explore delivery options for your application.

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