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Food ProcessingPV-DG Synchronization

1MW Solar-Diesel Synchronization for Rawat Hatchery Jadeed

PV-DG synchronization system for Rawat Hatchery Jadeed, integrating a 1MW Inverex solar inverter with the grid and three diesel generators across a complex power network for automatic, seamless switching and monitoring.

Industry

Food Processing

Location

Rawat, Punjab, Pakistan

Solution

PV-DG Synchronization

Primary Outcome

Reliability Improvement

AI-Ready Summary

Answer-first summary for technical buyers, consultants, and AI-assisted research workflows.

  • What it is: 1MW Solar-Diesel Synchronization for Rawat Hatchery Jadeed is an pv-dg synchronization deployment for food processing operations.
  • Who it is for: Industrial teams that need reliable power automation, SCADA visibility, and measurable operating gains.
  • Problem solved: Rawat Hatchery Jadeed runs a complex power network with grid supply and three diesel generators alongside a large 1MW solar installation, but lacked automatic synchronization between these sources, requiring manual switching and limiting coordinated use of solar generation with backup power.
  • How it works: Automatrix Engineering deployed a PV-DG synchronization controller integrating the 1MW Inverex solar inverter with the grid connection and all three diesel generators, enabling automatic, seamless switching and coordinated load sharing across this complex power network.
  • Results delivered: Solar, grid, and all three generators now switch and share load automatically across this complex network, removing manual intervention and giving the site full remote visibility into system performance.
  • How to engage: Contact Automatrix Engineering via WhatsApp, phone, or quote form for a similar architecture review.

Client Challenge

Rawat Hatchery Jadeed runs a complex power network with grid supply and three diesel generators alongside a large 1MW solar installation, but lacked automatic synchronization between these sources, requiring manual switching and limiting coordinated use of solar generation with backup power.

Existing Power / Automation Environment

Automate synchronization across a 1MW Inverex solar array, the grid, and three diesel generators at Rawat Hatchery Jadeed's complex power network for reliable, uninterrupted power.

Scope of Work

Automate synchronization across a 1MW Inverex solar array, the grid, and three diesel generators at Rawat Hatchery Jadeed's complex power network for reliable, uninterrupted power.

Solution Architecture

Automatrix Engineering deployed a PV-DG synchronization controller integrating the 1MW Inverex solar inverter with the grid connection and all three diesel generators, enabling automatic, seamless switching and coordinated load sharing across this complex power network.

Control Logic / Operational Modes

The controller was commissioned to manage the site's multi-source power network automatically, with cloud-based remote monitoring configured so the site team can track solar output, grid status, and all three generators in real time.

Safety and Protection Features

Protection and compliance controls included reverse power protection, configurable alarms, and controlled switching logic based on site conditions.

Components, Technologies, and Protocols

Components Used

  • Generator Synchronization
  • SCADA

Technologies

Generator SynchronizationSCADA

Protocols / Interfaces

  • Modbus
  • PLC-HMI integration

Results and Measurable Outcomes

Solar, grid, and all three generators now switch and share load automatically across this complex network, removing manual intervention and giving the site full remote visibility into system performance.

  • More stable source coordination

Visuals and Diagram Placeholders

Electrical SLD snapshots, HMI/SCADA views, panel documentation, and commissioning records.

1MW Solar-Diesel Synchronization for Rawat Hatchery Jadeed visual 1

Project FAQ

What was the primary challenge in 1MW Solar-Diesel Synchronization for Rawat Hatchery Jadeed?

Rawat Hatchery Jadeed runs a complex power network with grid supply and three diesel generators alongside a large 1MW solar installation, but lacked automatic synchronization between these sources, requiring manual switching and limiting coordinated use of solar generation with backup power.

How was the solution implemented?

The controller was commissioned to manage the site's multi-source power network automatically, with cloud-based remote monitoring configured so the site team can track solar output, grid status, and all three generators in real time.

What outcomes were delivered?

More stable source coordination

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