Solutions/Robotics & Embedded

Robotics & Embedded
Systems Engineering

We design intelligent hardware systems that bridge software and the physical world. From embedded firmware to IoT ecosystems, Lunex builds reliable, real-world technology.

  • Embedded firmware & RTOS systems
  • PCB design & hardware prototyping
  • IoT & connected devices
  • Automation & control systems
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Full Stack Hardware

Hardware + Software Integration

True physical intelligence requires a flawless vertical stack. We engineer every layer from the raw metal sensors up to the cloud dashboard, ensuring tight timing, low power consumption, and extreme reliability.

Application Layer
Control Logic (Firmware)
RTOS / Embedded OS
Microcontroller (ESP32 / STM32)
Sensors & Actuators

Core Capabilities

Precision engineering for mission-critical embedded systems.

Embedded Firmware Development

C/C++, FreeRTOS, and low-level drivers optimized for extreme reliability and constrained resources.

PCB & Hardware Design

Multi-layer schematic capture, board layout, and rapid iterative hardware prototyping.

IoT Systems

Securely connected fleets of devices utilizing MQTT, CoAP, and robust OTA update pipelines.

Automation Systems

Industrial-grade control loops, PLC integration, and smart manufacturing robotics.

Edge Computing

On-device AI and processing to reduce latency and ensure operation without internet dependency.

Rapid Prototyping

3D printed enclosures and fast-turnaround breadboard designs for physical validation.

Real-World Applications

Where our hardware engineering meets the physical world.

Smart Devices

Consumer IoT and connected appliances.

Industrial Automation

Factory floor robotics and sensors.

Robotics Prototypes

Custom mechanical and software builds.

Wearables & Health

Low-power biometric and fitness tech.

Smart Infrastructure

City-wide sensor arrays and grid monitoring.

Device Engineering Lifecycle

PHASE 1

Concept

Requirements & Feasibility

PHASE 2

Circuit Design

Schematics & PCB Layout

PHASE 3

Prototype

Hardware Fabrication

PHASE 4

Firmware

Low-level Code & RTOS

PHASE 5

Testing

Validation & QA

PHASE 6

Deployment

Manufacturing & OTA Setup

Real-time Response

Deterministic RTOS execution

Low-power Optimized

Micro-amp sleep states

Production Ready

Manufacturable designs

Field-Tested

Ruggedized reliability

Build Intelligent Systems That
Interact With the Real World

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