SOLUTION

Power Distribution Solutions

Complete MV/LV power distribution systems for industrial parks, commercial buildings, and utility substations.

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System Components

๐Ÿญ

MV Switchgear

12-40.5kV metal-clad switchgear with VCB, IEC type-tested.

๐Ÿ”„

Transformers

Oil-immersed and dry-type transformers, 10kVA-2500kVA.

๐Ÿ”Œ

LV Switchgear

Low voltage distribution panels, MCC, and PCC cabinets.

Key Advantages

๐Ÿญ ISO 9001 Manufacturing

All products manufactured in ISO 9001:2015 certified facilities with rigorous quality control at every stage โ€” from incoming materials to final testing.

โœ… Full Type Testing

Every unit undergoes factory acceptance testing (FAT) with certified test reports. Type test certificates available for IEC and other international standards.

๐ŸŒ Global Logistics

Ships to 60+ countries with customs documentation support. FOB/CIF/DDP delivery terms. Standard 20ft/40ft container or flat-rack shipping options.

๐ŸŽฏ Custom Engineering

Need specific voltage/frequency/enclosure? Our engineering team modifies standard products to your exact requirements โ€” no project is too small or too large.

Frequently Asked Questions

What is the typical lead time?

Standard products: 15-30 days. Custom configurations: 30-60 days. Large volume orders may have extended lead times โ€” we provide firm delivery schedules before order confirmation.

What warranty do you provide?

Standard: 12 months from commissioning or 18 months from shipment, whichever comes first. Extended warranties up to 5 years available. Spare parts guaranteed available for 10+ years.

Can you customize for our specific application?

Absolutely. Share your specifications and our engineering team will provide a tailored solution with drawings, compliance documentation, and a fixed-price quotation within 3-5 business days.

Need a Distribution Solution?

Custom-designed for your specific voltage, capacity, and layout requirements.

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Power Distribution for Microgrids

A microgrid is only as good as its distribution network. The solar panels might be producing 2MW, the battery storing 4MWh, the diesel running smoothly โ€” but if the power can’t reach the loads reliably and efficiently, the system fails.

Power distribution in a microgrid context means transformers, switchgear, protection, and control systems working together to deliver clean, reliable power from the generation source to every load โ€” whether that load is 100 meters or 10 km away.

Microgrid Distribution Architecture

[Solar Array] [Battery Bank] [Diesel Gen]
โ†˜ โ†˜ โ†˜
[HYBRID PCS / INVERTER]
|
[LV MAIN SWITCHBOARD] โ† 400V/480V
|
[MV TRANSFORMER] โ† steps up to 6.6/11/33kV
|
[MV SWITCHGEAR / RING MAIN UNIT]
/ | \
[Feeder 1] [Feeder 2] [Feeder 3]
โ†˜ โ†˜ โ†˜
[Distribution Transformer] (each feeder)
|
[LV loads โ€” 400V/230V]

Key Distribution Equipment

Distribution Transformers

50kVA – 2,500kVA. Oil-immersed (S11 series) for outdoor, dry-type (SCB10) for indoor. Pad-mount or pole-mount. Custom voltage ratios.

MV Switchgear

11kV, 22kV, 33kV. Vacuum circuit breakers. SF6-free option available. Indoor metal-clad or outdoor ring main units. Protection relays.

LV Switchboards

Form 2-4 separation. ACBs and MCCBs. Motor control centers. Power factor correction. Smart metering with Modbus/IEC 61850.

Protection Relays

Numerical relays for overcurrent, differential, distance, and arc-flash protection. IEC 61850 communication. Event recording and fault location.

SCADA / Energy Management

Microgrid controller. Real-time monitoring. Load/generation balancing. Islanding and re-synchronization. Remote access via 4G/IoT.

Power Quality Equipment

Active harmonic filters. Static VAR compensators. Voltage regulators. Surge protection. Maintains IEEE 519 compliance at PCC.

Microgrid Protection Challenges

A microgrid is fundamentally different from a traditional grid. Protection systems must handle:

  • Bidirectional power flow: Power can flow from solar to load, but also from battery to grid, or from diesel to battery. Protection must work in both directions.
  • Variable fault current: Inverter-based generation (solar, battery) provides limited fault current compared to synchronous machines. Conventional overcurrent protection may not work.
  • Islanding transitions: When the microgrid disconnects from the main grid, frequency and voltage can drift. Protection must adapt quickly.
  • Anti-islanding protection: If the main grid fails, the microgrid must disconnect to prevent back-feeding. Required by most grid codes.
  • Low inertia: Without large rotating machines, frequency changes faster. Faster-acting protection required.

Our microgrid protection packages are designed specifically for these conditions, validated by simulation in PSCAD/ETAP, and field-proven across 200+ installations.