Macro studio shot of a high-fidelity solar tracker prototype, focusing on the yellow solar panel bracket and the sleek dual-axis servo motor assembly, moody dark blue background with yellow rim lighting.
Macro studio shot of a high-fidelity solar tracker prototype, focusing on the yellow solar panel bracket and the sleek dual-axis servo motor assembly, moody dark blue background with yellow rim lighting.
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/ FINANCIAL VIABILITY

Industrial yield at prototype scale.

A complete dual-axis solar tracking prototype engineered to prove that smart, micro-controller-driven hardware can optimize solar yield by up to 40% at a fraction of commercial costs.

COST BREAKDOWN

Transparent hardware budget

TOTAL ESTIMATE
COMPONENT ALLOCATION

₹20,000

Solar Panel allocation of ₹7,000 secures a high-efficiency photovoltaic panel designed to capture maximum ambient light and convert it into usable power.

An all-inclusive budget covering the high-efficiency solar panel, dual-axis actuation, micro-controller logic, and weather-resistant structural framework.

Arduino & Sensors budget of ₹3,000 covers the central micro-controller and the high-precision light-dependent resistor array that continuously polls sunlight position.

Motor & Driver allocation of ₹4,000 funds the high-torque servo and DC motors required to actuate and adjust the panel angle continuously.

Frame & Hardware budget of ₹4,000 delivers a durable, weather-resistant structural chassis designed to support the solar panel assembly under outdoor conditions.

This open-hardware prototype is designed with off-the-shelf components to ensure high reproducibility, straightforward assembly, and minimal long-term maintenance overhead.

Wiring & Accessories allocation of ₹2,000 covers shielded interconnects, power distribution buses, and robust mounting hardware to ensure secure electrical connections.

WHY CHOOSE LAKSHYA

High-yield investment

By continuously tracking the sun's path, our automated system delivers substantial performance gains that quickly offset the initial ₹20,000 prototype cost.

EFFICIENCY
AUTOMATION
DURABILITY

+40% Yield

Zero Manual Effort

Low Maintenance

Closed-loop LDR sensors continuously monitor sunlight position and adjust the panel angle, capturing maximum solar irradiance throughout the day to boost output.

The integrated Arduino micro-controller processes real-time sensor data to actuate low-draw motors automatically, ensuring the panel is always perfectly aligned.

The prototype is built with weather-resistant hardware and high-torque motors designed for long-term reliable operation with minimal manual intervention.