Skip to main content
Commercial BuildingsPV-DG Synchronization

100kW Solar-Diesel Synchronization for SSC Solar – MC Office Kamoki

PV-DG synchronization system for SSC Solar - MC Office Kamoki, integrating a 100kW Solis solar inverter with grid and diesel generator sources for automatic, seamless power switching and monitoring.

Industry

Commercial Buildings

Location

Kamoki, Punjab, Pakistan

Solution

PV-DG Synchronization

Primary Outcome

Reduced manual intervention

AI-Ready Summary

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

  • What it is: 100kW Solar-Diesel Synchronization for SSC Solar – MC Office Kamoki is an pv-dg synchronization deployment for commercial buildings operations.
  • Who it is for: Industrial teams that need reliable power automation, SCADA visibility, and measurable operating gains.
  • Problem solved: MC Office Kamoki relied on grid power and a diesel generator without automatic synchronization, requiring manual switching between sources whenever grid power was lost, causing downtime and inefficient generator fuel usage during transfer.
  • How it works: Automatrix Engineering deployed a PV-DG synchronization controller integrating the site's 100kW Solis solar inverter with the grid connection and diesel generator, enabling automatic, seamless switching and synchronized load sharing across all three power sources without manual intervention.
  • Results delivered: Power source transitions between solar, grid, and generator are now automatic and seamless, removing the need for manual switching and giving the site team real-time visibility into system performance.
  • How to engage: Contact Automatrix Engineering via WhatsApp, phone, or quote form for a similar architecture review.

Client Challenge

MC Office Kamoki relied on grid power and a diesel generator without automatic synchronization, requiring manual switching between sources whenever grid power was lost, causing downtime and inefficient generator fuel usage during transfer.

Existing Power / Automation Environment

Deploy a PV-DG synchronization system at SSC Solar's MC Office in Kamoki to automatically synchronize a 100kW Solis solar inverter with the utility grid and an on-site diesel generator.

Scope of Work

Deploy a PV-DG synchronization system at SSC Solar's MC Office in Kamoki to automatically synchronize a 100kW Solis solar inverter with the utility grid and an on-site diesel generator.

Solution Architecture

Automatrix Engineering deployed a PV-DG synchronization controller integrating the site's 100kW Solis solar inverter with the grid connection and diesel generator, enabling automatic, seamless switching and synchronized load sharing across all three power sources without manual intervention.

Control Logic / Operational Modes

The controller was installed and configured to monitor grid status, solar output, and generator availability in real time, with remote cloud-based monitoring set up so the site team can track power flow and system status from anywhere.

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
  • PLC/HMI

Technologies

Generator SynchronizationPLC/HMI

Protocols / Interfaces

  • Modbus
  • PLC-HMI integration

Results and Measurable Outcomes

Power source transitions between solar, grid, and generator are now automatic and seamless, removing the need for manual switching and giving the site team real-time visibility into system performance.

  • Reduced manual intervention

Visuals and Diagram Placeholders

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

100kW Solar-Diesel Synchronization for SSC Solar – MC Office Kamoki visual 1

Project FAQ

What was the primary challenge in 100kW Solar-Diesel Synchronization for SSC Solar – MC Office Kamoki?

MC Office Kamoki relied on grid power and a diesel generator without automatic synchronization, requiring manual switching between sources whenever grid power was lost, causing downtime and inefficient generator fuel usage during transfer.

How was the solution implemented?

The controller was installed and configured to monitor grid status, solar output, and generator availability in real time, with remote cloud-based monitoring set up so the site team can track power flow and system status from anywhere.

What outcomes were delivered?

Reduced manual intervention

Discuss a Similar Project

Share your load profile, control objectives, and site constraints. We will propose architecture options, implementation scope, FAT/SAT plan, and support model.