Industrial IoT · Embedded Systems · PCB Design

MicroELab

Professional embedded engineering for smart monitoring devices, industrial controllers, sensor systems, firmware, PCB prototypes, and automation-ready electronics.

Founded by Fawad Butt

IoT Monitoring PCB Hardware MCU Firmware

What we build

Reliable embedded hardware from concept to field-ready system.

MicroELab focuses on industrial embedded products where electronics, firmware, sensing, communication, and enclosure constraints need to work together. We help businesses build practical connected products, automation interfaces, test fixtures, and custom control electronics that can survive real operating conditions.

01

Embedded Product Development

Architecture, component selection, board design, firmware, enclosure-fit thinking, and prototype bring-up.

02

Industrial IoT Systems

Sensor acquisition, telemetry nodes, wireless/wired communication, gateways, dashboards, and device diagnostics.

03

Automation Electronics

Relay control, isolated inputs, actuator drivers, machine interfaces, panel electronics, and production fixtures.

Fawad Butt, founder of MicroELab

Founder

Fawad Butt

Embedded and industrial electronics engineer focused on practical hardware, firmware, prototyping, and automation-ready solutions for real-world field environments.

Capabilities

Core Engineering Areas

PCB Design

Custom schematics, PCB layout, power sections, protection circuits, sensor interfaces, and manufacturable prototypes.

Firmware

Microcontroller firmware for data acquisition, control loops, communication, diagnostics, calibration, and configuration.

Industrial IoT

Connected hardware for monitoring, telemetry, RS485/Modbus-style integrations, wireless links, and cloud-ready data paths.

Automation Interfaces

Control panels, relay outputs, isolated inputs, machine signals, actuator drivers, and production environment interfaces.

Portfolio

Industrial Project Portfolio

Industrial IoT

Remote Machine Monitoring Node

Sensor-based monitoring unit for temperature, vibration, runtime, and fault signals with telemetry-ready firmware.

  • MCU firmware and data logging
  • Isolated digital inputs
  • RS485, Wi-Fi, GSM, or Ethernet options
Control Hardware

Motor and Actuator Control Board

Compact control electronics for relays, solenoids, valves, motors, limit switches, and machine safety signals.

  • Driver stages and protection
  • Field wiring connectors
  • Deterministic control behavior
Smart Energy

Power and Energy Measurement Device

Embedded metering device for current, voltage, power, and equipment usage monitoring in industrial environments.

  • Analog front-end integration
  • Calibration workflow
  • Dashboard-ready output data
Automation QA

Production Test Fixture

Bench hardware and firmware for board testing, pass/fail checks, serial logging, and repeatable production validation.

  • Test jig electronics
  • Automated result logging
  • Fixture wiring and documentation

Technology

Built for industrial constraints.

ESP32 STM32 Arduino RS485 Modbus GSM Wi-Fi MQTT Sensors Relays PCB Layout Test Jigs

Workflow

Engineering Process

  1. DefineRequirements, operating conditions, interfaces, safety needs, and constraints.
  2. DesignSchematics, PCB layout, firmware architecture, enclosure fit, and production planning.
  3. PrototypeBring-up, measurement, debugging, signal validation, and design iteration.
  4. DeliverProduction files, firmware, test notes, documentation, and support for next steps.

Contact

Let's discuss your embedded project.

Share your product idea, machine interface problem, PCB requirement, or firmware task. MicroELab can help move it from concept to working prototype.