Always-On, Always Green Power for Data Centers
Sub-millisecond failover. Genuine 24/7 renewable matching. Built for the AI era where every millisecond of downtime and every ton of carbon matters.
Sub-millisecond failover. Genuine 24/7 renewable matching. Built for the AI era where every millisecond of downtime and every ton of carbon matters.
India's data center capacity tripled from 520 MW to 1.5 GW in five years. The next wave demands power infrastructure that delivers both.
India consumes 13 TWh of data center power annually, projected to surge to 57 TWh by 2030. As AI workloads push power density from 5 kW to 50+ kW per rack, the gap between what the grid can deliver and what your facility needs is widening. Tier 3/4 SLAs demanding 99.982-99.995% uptime leave zero room for the 8-15 second diesel genset startup window.
Hyperscaler tenants, including Google, AWS, and Microsoft, mandate net-zero operations from colocation partners. State policies offer INR 0.50/unit reimbursement for facilities sourcing 50%+ renewable energy. The USD 1.18 billion data center power solutions market, growing at 17.9% CAGR, is being shaped by operators who can deliver both performance and sustainability.
Data centers must guarantee 99.999% uptime while meeting aggressive renewable mandates. Legacy diesel backup solves one problem while creating another.
Tier 3 demands 99.982% and Tier 4 demands 99.995% uptime. With Indian grids averaging 10-15 outage events per month in most states, every transfer to backup power is a risk to your SLA.
Diesel generators take 8-15 seconds to start and synchronize. For GPU clusters running inference workloads and databases committing transactions, that gap means data corruption, failed jobs, and SLA breaches.
State policies offer INR 0.50/unit reimbursement for 50%+ renewable sourcing. Google, AWS, and Microsoft all require net-zero operations from colo partners. Diesel backup moves you in the wrong direction.
Power density is surging from 5 kW to 50+ kW per rack as AI/ML training and inference clusters scale. These demand spikes can breach contracted grid capacity in seconds.
BESS integrates at every layer of your critical power infrastructure, from the UPS bus to renewable PPA storage.
BESS sits directly on the critical UPS bus, providing instantaneous power during any grid disturbance. Unlike traditional battery-backed UPS with limited runtime, Ingro's BESS delivers hours of full-load capacity with zero transfer time.
Intelligent ATS coordination ensures seamless handoff between grid, BESS, and diesel gensets. The battery bridges the full 8-15 second genset startup window with zero load interruption, then gracefully transfers once generators stabilize.
For short outages (under 30 minutes, which account for 70%+ of grid events), BESS handles the full load without ever starting diesel generators. This slashes Scope 1 emissions, reduces fuel costs, and extends genset maintenance intervals by 3-4x.
Excess solar and wind generation from PPAs is stored in the BESS and dispatched during nighttime hours or cloud cover. This converts intermittent PPAs into firm, round-the-clock green power that genuinely offsets grid consumption.
Ingro's software stack transforms battery storage from passive backup into an active, AI-driven power optimization platform for data centers.
Sub-millisecond transfer to battery power during any grid event. Seamless bridge to genset startup with zero load interruption. Exceeds Tier 4 requirements for concurrent maintainability.
Real-time monitoring of every cell in the BESS array. SOC tracking, thermal management, and current balancing ensure optimal performance and longevity across the full battery fleet.
ML models trained on your facility's compute patterns forecast load 24 hours ahead. The system pre-positions battery SOC to handle predicted demand peaks without grid stress.
Maximizes utilization of solar and wind PPA energy by storing excess generation during peak production and dispatching it during nighttime and low-generation periods for genuine round-the-clock renewable coverage.
Monitors real-time power draw and automatically discharges BESS to flatten GPU cluster spikes. Prevents breaches of contracted demand that trigger punitive tariff surcharges and costly infrastructure upgrades.
Automated tracking of Scope 1 (diesel displacement) and Scope 2 (grid vs. renewable) emissions. Generates hyperscaler-ready reports showing renewable percentage, carbon offset, and compliance metrics.
Continuous cell-level health monitoring detects degradation, impedance rise, and thermal anomalies before they cause failures. Scheduled maintenance replaces reactive firefighting with planned interventions.
Annual renewable energy certificates are no longer enough. Hyperscaler tenants and regulators are moving toward hourly matching, where you must demonstrate renewable consumption every hour of every day. BESS makes this possible by storing daytime solar and wind for nighttime dispatch.
Move beyond annual renewable credits to genuine hourly matching. BESS stores daytime solar and wind, dispatching it through the night to demonstrate real-time green power consumption to hyperscaler auditors.
Qualify for INR 0.50/unit reimbursement by demonstrating 50%+ renewable energy sourcing. BESS-backed renewable integration makes this achievable even in states with limited solar hours.
Reduce diesel genset runtime by 70-90%. For short outages, BESS handles the full load without ever starting generators. Track and report Scope 1 reductions with automated emissions accounting.
Google, AWS, and Microsoft mandate net-zero operations from colocation partners. Ingro's ESG dashboard generates tenant-specific sustainability reports meeting RE100, SBTi, and CDP disclosure standards.
Purpose-built battery storage that treats uptime and sustainability as equally non-negotiable.
Sub-millisecond failover bridges every grid event seamlessly. Your SLAs are protected by physics, not by hoping diesel starts fast enough.
24/7 renewable matching with stored solar and wind. Meet state mandates, earn incentives, and satisfy hyperscaler ESG requirements.
Combine diesel displacement, peak demand shaving, renewable PPA optimization, and state incentives for dramatic total cost of ownership savings.
ML models predict compute load patterns, pre-position battery SOC, and optimize renewable dispatch for maximum efficiency and minimum waste.
Handle 50+ kW per rack power density with demand-managed BESS that absorbs GPU cluster spikes without breaching grid contracts.
Automated Scope 1/2 tracking, renewable percentage reporting, and hyperscaler-ready compliance dashboards eliminate manual reporting burden.
A structured deployment path that ensures zero disruption to live operations while integrating BESS into your power architecture.
Assess your existing UPS topology, generator capacity, grid reliability history, renewable PPA potential, and Tier certification requirements. Map every power path to identify integration points.
Engineer seamless integration into your critical power chain: UPS bus placement, ATS coordination, genset sequencing, and renewable storage sizing. Full N+1 redundancy modeling included.
Install and commission BESS in phases during planned maintenance windows. Hot-standby diesel ensures zero risk to live operations at every stage. No workload migration required.
Ingro's Cloud EMS continuously optimizes charge/discharge across uptime protection, renewable storage, demand management, and ESG reporting. 24/7 remote monitoring with on-call support.
Schedule a power architecture review and see how BESS delivers Tier 4 uptime while meeting your renewable energy commitments. Our engineers will map every power path in your facility and design a zero-disruption integration plan.