IoT

Load Shedding Battery Monitor

The Problem: Business processes stuck in paper-based, error-prone methods.

Client

SolarConnect SA

Time to Solution

2-4 weeks to first results

Zero unexpected downtime for 15 client businesses

Measurable Results

The Story: From Problem to Solution

The Challenge They Faced

Businesses were losing critical systems during load shedding because backup batteries died without warning. We built an IoT device that monitors battery voltage, temperature, and charge cycles—sending WhatsApp alerts when batteries need replacement or when systems are at risk. Works with any inverter or UPS.

But the real problem was deeper:

Processes relied on paper and manual data entry
No visibility into operations when away from the office
Load shedding and connectivity issues disrupted workflow

How We Solved It

Mobile-First Design

Works offline and syncs when connectivity returns—perfect for load shedding.

Real-Time Dashboard

Instant visibility from anywhere: web, mobile, or tablet.

Life After Our Solution

Since implementing our system:

Zero unexpected downtime for 15 client businesses — This is what it meant for their bottom line.
Operational costs reduced by 40% through automation.
100% data accuracy—no more manual entry errors.

Quick Facts

Perfect for: Operations managers, business owners

Technologies Used

ESP32 Arduino MQTT Node-RED Grafana

Key Features

Works during load shedding
No internet? No problem (offline mode)
Real-time WhatsApp/Email notifications
Digital signatures & photo proof

I Have This Problem Too Discuss My Unique Challenge

Results & Impact

Zero unexpected downtime for 15 client businesses

The implementation led to significant business growth and operational efficiency improvements.

Client Testimonial

"Monyamane Tech Solutions delivered beyond our expectations. Their expertise and professionalism made this project a success."

Client Representative

SolarConnect SA

Project Timeline

Discovery & Planning

Requirements gathering, architecture design, and project planning.

Week 1-2

Development Phase

Core development with weekly client reviews and feedback sessions.

Week 3-12

Testing & QA

Comprehensive testing including security, performance, and user acceptance testing.

Week 13-14

Deployment & Launch

Production deployment, user training, and go-live support.

Week 15-16

Post-Launch Support

Ongoing maintenance, monitoring, and optimization.

Ongoing

Technical Implementation

Architecture

Microservices-based architecture with container orchestration using Kubernetes.

Security

End-to-end encryption, OAuth 2.0 authentication, and regular security audits.

Performance

Optimized for 99.9% uptime with auto-scaling and CDN integration.

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Your Business Deserves Better

Stop fighting with manual processes, downtime, and disputes. Let's build the solution you need.

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Load Shedding Battery Monitor

Client

Time to Solution

The Story: From Problem to Solution

The Challenge They Faced

How We Solved It

Mobile-First Design

Real-Time Dashboard

Life After Our Solution

Quick Facts

Technologies Used

Key Features

Results & Impact

Zero unexpected downtime for 15 client businesses

Client Testimonial

Client Representative

Project Timeline

Discovery & Planning

Development Phase

Testing & QA

Deployment & Launch

Post-Launch Support

Technical Implementation

Architecture

Security

Performance

Project Gallery

Related Projects

Similar IoT Project

Client Success Stories

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Your Business Deserves Better