Commercial & Industrial Energy Storage · New Zealand

Storage sized to your site.

GRIDstore is ASKA's commercial battery platform — deployed from a few hundred kilowatt-hours behind a small commercial meter to multi-megawatt systems and containerised systems. One engineering standard, one service model, one operating intelligence, at every scale.

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Forecast demand increase by 2050 as transport, heating and industry electrify
Transpower — NZ Electricity Futures
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Wholesale prices regularly exceed $300/MWh during tight supply — spikes much higher
Electricity Authority — wholesale market data
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Of C&I electricity costs linked to peak demand charges — not total consumption
EDB tariff structures · DPP4 2025–2030
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Wait time for network connection upgrades — often with major capital contributions
Distribution capacity reports
Sizing

From a single cabinet to site-scale systems.

Most NZ commercial sites sit behind a 500 kVA to 1 MVA transformer. GRIDstore systems are sized to the transformer, the load shape, and the value streams on your tariff — drag to explore the range, or jump to a common size.

Size the system usable kWh
2615227831,0441,3051,5661,8272,0883,132
Usable capacity
2.09MWh
Rated power
1.00MW
Max output current
1,444A
Footprint · illustrative
11.2
Arranged as 8 cabinets
One megawatt of rated power. Fits behind a full 1 MVA transformer — a common upper ceiling for a single site.

The platform does not stop at twelve cabinets. For large industrial and grid-adjacent sites, ASKA delivers containerised GRIDstore systems in the 4 to 6 MW class — same operating intelligence, same engineering discipline, larger form factor. Where a project sits at that scale, we design it with you directly.

Full technical specification

GRIDstore 261 · complete data sheet.

Grouped by system domain — tap any heading below to expand the full detail. For customer-specific configurations or integration options, talk to our engineering team.

DC side · battery system
Cell chemistryLFP (lithium iron phosphate)
Cell typeLFP 314 Ah prismatic
Pack configuration52.25 kWh / 1P52S
Battery system261.25 kWh / 1P260S
Rated voltage832 Vdc
Voltage range728 – 936 Vdc
Pack ingress ratingIP65
Thermal managementActive liquid cooling
AC side · power conversion
Rated power125 kW
Peak power137 kW (1 min)
Nominal voltage400 Vac / 3P+N+PE
Nominal frequency50 Hz / 60 Hz
Power factor−1 lagging to 1 leading
Total harmonic distortion (i)≤ 3%
DC ratio< 0.5% Ipn
Inverter accreditationAS/NZS 4777.2:2020
Performance & general data
Maximum system efficiency90%
Charge / discharge rate0.5 P
Depth of discharge95% (25 ± 2 °C)
SOC accuracy3%
Cycle life8,000 cycles
Switching time< 100 ms
ConnectivityEthernet / RS485
Environmental & physical
Cabinet ingress ratingIP55
Operating temperature−25 to 55 °C
Humidity5 – 95% RH, non-condensing
Noise≤ 75 dB
Altitude≤ 2,000 m (derating above)
Fire safetyAerosol suppression, cabinet + pack level
Dimensions (W × D × H)1,400 × 1,000 × 2,350 mm
Weight~2,700 kg
Footprint1.4 m²
Deployment & parallelisation
On-grid parallel maximum12 blocks
Off-grid parallel maximum6 blocks
Recommended service alley1.0 m between rows
LiftingTop eyes · forklift channels at base
Certifications & standards
Grid connectionAS/NZS 4777.2:2020 · EN 50549-1
Battery safetyIEC 62619 · UN 38.3 · IEC 63056
Fire & thermalUL 9540A · NFPA 69
Grid-scale storageIEC 62933
EMC / power qualityIEC 61000 · IEC 62477-1
Standards & compliance

Engineered to the standards that matter here.

Designed to the grid, safety, and battery standards recognised in New Zealand and internationally — the certifications your electrical engineer, your insurer, and your EDB will ask for. Tap a heading to expand.

Grid connection
AS/NZS 4777.2:2020
Grid connection of energy systems via inverters. PCS is accredited to this standard for connection to NZ distribution networks.
EN 50549-1
Requirements for generating plants connected to low-voltage distribution networks. European harmonised standard, referenced widely in NZ engineering practice.
Battery safety
IEC 62619
Safety requirements for secondary lithium cells and batteries used in industrial applications.
UN 38.3
Lithium battery transport safety testing — required for shipment of every cell and module.
IEC 62477-1
Safety requirements for power electronic converter systems and equipment.
Fire & thermal safety
UL 9540A
Thermal runaway fire propagation testing for battery energy storage systems. The safety benchmark referenced by insurers globally.
NFPA 69
Standard on explosion prevention systems. Applied to the aerosol suppression architecture.
Grid-scale & EMC
IEC 62933
Electrical energy storage systems — the umbrella standard covering integration, testing, and performance of grid-scale storage.
IEC 61000
Electromagnetic compatibility, harmonics, and power quality — ensuring clean interaction with the connected network.
IEC 63056
Safety requirements for lithium batteries in stationary energy storage applications.

Every GRIDstore project follows a structured pathway.

From the first conversation to the asset operating in the field. Five steps, one company, one set of numbers.

See how we work →

Ready to size your site?
Let's talk.

Share your load data and tariff. We size the block count, model the return, and tell you honestly whether it stacks up.

Start the conversation