The Smart Electrical Parameter Monitoring, Fault Alert, and Control System is an embedded solution designed to monitor critical electrical parameters of a single-phase AC system, detect faults in real time, and take automatic protective actions. Traditional electrical systems rely heavily on manual inspection and basic protection devices, which may not provide early warnings or detailed system status. This project overcomes those limitations by combining isolated sensing circuits, intelligent processing using an ESP32 microcontroller, and automated control mechanisms, ensuring higher safety, reliability, and efficiency.

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https://electronicsworkshops.com/smart-electrical-parameter-monitoring-and-fault-alert-system/

To continuously monitor AC voltage, phase presence, and load current

To detect electrical faults such as overvoltage, undervoltage, phase failure, and overcurrent

To provide real-time fault alerts and system status

To automatically control relays and cooling fans for protection and thermal management

To ensure electrical isolation and safety between high-voltage AC and low-voltage electronics

The system works by first taking a single-phase AC input, from which voltage, phase, and load current are safely sensed using isolated potential and current transformers, then conditioned through filtering and amplifier circuits to produce low-voltage analog signals. These signals are fed into an ESP32 microcontroller, which continuously processes the data, compares it with predefined safe limits, and determines the system’s operating condition. If a fault such as overvoltage, undervoltage, phase loss, or overcurrent is detected, the controller immediately triggers alerts and control actions, including switching a relay to disconnect the load and activating cooling fans when required. A regulated 12 V to 5 V and 3.3 V power supply ensures stable operation of all electronics, while communication interfaces allow system expansion, making the overall flow a closed-loop process of sensing → decision-making → protection → control for safe and intelligent electrical system operation.

Fault Detection and Alert Logic

The system detects multiple fault conditions, including:

Overvoltage / Undervoltage – protects connected equipment from unstable supply

Phase Loss – prevents single-phasing damage

Overcurrent / Overload – avoids overheating and component failure

When a fault is detected:

A fault flag is generated internally

Control signals are immediately sent to disconnect or limit the load

Alerts can be transmitted to displays, indicators, or external systems

This circuit is a single-phase AC monitoring and control module that measures AC voltage, phase presence, and load current, then uses that information to drive a relay and cooling fans safely with electrical isolation. The AC input (L, N) is stepped down and isolated using a potential transformer, and the reduced AC signal is conditioned by LM321 op-amp comparator circuits to generate logic-level signals labeled Voltage1 and Phase1, which indicate mains voltage availability and phase detection for a microcontroller. Current measurement is done through a current transformer (CT) at connector J1; its signal is rectified, filtered, and amplified by another LM321, producing a proportional Current output. On the control side, logic signals (RELAY_CONTROL, fan_control_1, fan_control_2) drive NPN transistors (2SD400A) that switch a relay and 12 V DC fans, with flyback diodes (1N4007) protecting against inductive spikes and polyfuses providing overcurrent protection. Overall, the circuit safely interfaces high-voltage AC with low-voltage electronics, enabling real-time monitoring and protective control of electrical loads—well suited for energy monitoring, protection systems, or EV/industrial applications.

A 12 V DC input from a barrel jack is stepped down to 5 V using a linear regulator and further regulated to 3.3 V for the ESP32, with diodes and capacitors providing reverse-polarity protection and supply filtering. The board exposes I²C communication via a dedicated connector with proper pull-up resistors for adding external sensors or peripherals, includes headers for SPI/flash/programming, and provides a connector for a temperature sensor, making this section the central processing, power-management, and communication hub that links all measurement, protection, and control functions together.

PCB

3D

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Applications

Industrial electrical panels

EV charging stations and service equipment

Energy monitoring and management systems

Smart protection devices and automation systems

Commercial and residential electrical safety systems

For Full Project:

https://electronicsworkshops.com/smart-electrical-parameter-monitoring-and-fault-alert-system/

Conclusion

The Smart Electrical Parameter Monitoring, Fault Alert, and Control System provides an intelligent, reliable, and safe solution for modern electrical systems. By integrating real-time monitoring, automated fault detection, and protective control, the project significantly reduces the risk of equipment damage, improves operational safety, and supports predictive maintenance. Its modular design and expandability make it suitable for a wide range of industrial and smart energy applications.