Diploma EEE Final Year Projects 2026 — Electrical Engineering Projects for Diploma Students in Bangalore
Diploma EEE projects and diploma electrical engineering projects are practical, hands-on assignments that every Diploma student must complete as their final year project submission. At ProjectsatBangalore we provide 25+ ready-to-submit diploma EEE project topics for 2025–2026 — covering solar energy, IoT-based metering, motor control, power electronics, home automation, battery charging, wind energy and energy conservation — designed to suit the budget, syllabus and submission requirements of Karnataka Polytechnic (VTP), MSBTE (Maharashtra), DOTE (Tamil Nadu) and SBTET (Andhra Pradesh) diploma colleges.
Why Choose Our Diploma EEE Projects?
Every diploma electrical project we deliver is a complete, submission-ready package — not just a printed report. You get the actual working hardware project kit (soldered PCB or breadboard), Arduino Uno / PIC16F877A / ESP32 source code, circuit schematic (hand-drawn or printed), block diagram, complete project report in your college format, A3 chart / poster, 20 viva questions with answers and a working video demonstration. Projects are delivered within 3–5 working days anywhere in Bangalore, and we offer pan-India courier for select topics.
Diploma EEE Project Topics We Cover
Components & Tools Used in Diploma EEE Projects
Commonly available components and software platforms used across all our diploma electrical engineering projects — ideal for polytechnic college lab submissions and final year project exhibitions in Bangalore.
25+ Final Year Electrical Engineering Project Topics for Diploma Students 2026
All 25+ diploma EEE project topics below are practical and submission-ready for Karnataka Polytechnic, MSBTE, DOTE and SBTET diploma colleges — each with working hardware kit, circuit diagram, source code, project report, PPT and viva Q&A support.
| # | Diploma EEE Final Year Project Title / Topic | Category | Components / Tools |
|---|---|---|---|
| 01 | Automatic Street Light Control Using LDR and Arduino — streetlights turn on automatically at dusk and off at dawn using a light-dependent resistor (LDR) and Arduino Uno relay circuit | Automation | Arduino Uno, LDR, Relay, Proteus |
| 02 | IoT-Based Smart Energy Meter with GSM Billing Alert — measures real-time household power consumption and sends monthly billing alerts via SMS using SIM800L GSM module and Arduino | IoT / Smart Grid | Arduino Mega, GSM SIM800L, CT Sensor |
| 03 | Solar-Powered DC Water Pump for Agricultural Irrigation — 12V solar panel charges lead-acid battery to power DC pump with charge controller circuit for farmland irrigation | Solar / Agriculture | Solar Panel 20W, DC Motor Pump, Battery |
| 04 | DC Motor Speed Control Using PWM and L298N Motor Driver — variable speed control of DC motor using pulse-width modulation (PWM) from Arduino and L298N H-bridge driver module | Motor Control | Arduino Uno, L298N, DC Motor, Potentiometer |
| 05 | Home Automation System Using Arduino and Bluetooth (HC-05) — control home appliances (fan, light, AC) from a smartphone via Bluetooth using Arduino and relay module | Home Automation | Arduino Uno, HC-05, Relay Module, Android App |
| 06 | Automatic Battery Charger for 12V Lead-Acid Battery with Overcharge Protection — automatic cut-off circuit using LM317 voltage regulator and relay prevents battery overcharging | Battery / Charger | LM317, Relay, Transformer, BC547 |
| 07 | Single-Phase PWM Inverter Using MOSFET (12V DC to 230V AC) — converts 12V DC battery to 230V AC using IRF540 MOSFETs and 555 timer-based PWM driver | Power Electronics | IRF540 MOSFET, 555 Timer, Transformer |
| 08 | Wind Energy-Based LED Street Light System — small wind turbine charges a 12V battery to power LED street lights; ideal for rural off-grid areas | Wind Energy | PMDC Generator, 12V Battery, LED, Charge Controller |
| 09 | Prepaid Energy Meter Using Arduino and RFID Card — users recharge via RFID card; meter cuts supply when credit runs out — ideal for hostel and residential billing | Smart Meter / RFID | Arduino Uno, RFID RC522, LCD 16×2, Relay |
| 10 | Automatic Voltage Regulator (AVR) for Single-Phase AC Supply — uses relay-switched transformer taps to maintain constant 230V output when input varies from 170V–270V | Power Systems | Auto-Transformer, Relays, LM358, Arduino |
| 11 | Solar Panel Power Monitoring System Using ESP32 and ThingSpeak — monitors solar panel voltage, current and power output in real time on cloud dashboard via Wi-Fi | Solar / IoT | ESP32, INA219 Sensor, ThingSpeak, OLED Display |
| 12 | Automatic Plant Irrigation System Using Soil Moisture Sensor and Arduino — automatically triggers water pump when soil moisture drops below threshold; saves water in agriculture | IoT / Agriculture | Arduino Uno, Soil Moisture Sensor, Relay, DC Pump |
| 13 | Power Factor Correction Using Capacitor Bank Switching — measures power factor using Arduino and ACS712 current sensor and switches in capacitor banks to improve it | Power Electronics | Arduino Uno, ACS712, Capacitors, Relay, LCD |
| 14 | BLDC Motor Speed Control Using Arduino and PWM — controls brushless DC motor speed with closed-loop feedback using Hall effect sensors and Arduino PWM output | Motor Control | Arduino Uno, BLDC Motor, ESC, Hall Sensor |
| 15 | AC to DC Buck Converter Design with Output Voltage Regulation — regulated 5V/12V DC output from 230V AC mains using rectifier, capacitor filter and 7805/7812 regulator IC | Power Electronics | Bridge Rectifier, 7805/7812, Capacitors, Transformer |
| 16 | Smart Home Energy Monitor Using ESP32 and Blynk App — measures voltage, current and power consumption of home appliances and displays on Blynk smartphone dashboard in real time | IoT / Energy Monitoring | ESP32, PZEM-004T, Blynk App, LCD |
| 17 | Stepper Motor Control Using ULN2003 Driver and Arduino — precise angular position control of stepper motor using half-step and full-step sequences via Arduino and ULN2003 IC | Motor Control | Arduino Uno, 28BYJ-48, ULN2003, Proteus |
| 18 | Solar MPPT Charge Controller for 12V Battery Using Arduino — implements perturb-and-observe (P&O) MPPT algorithm to extract maximum power from solar panel and charge 12V battery | Solar / MPPT | Arduino Uno, MOSFET, Solar Panel, Inductor |
| 19 | Overvoltage and Overcurrent Protection Circuit for Electrical Appliances — trips relay to disconnect load when supply voltage or current exceeds safe limits using LM393 comparator | Protection Circuit | LM393, LM358, Relay, Transformer, LED |
| 20 | Temperature-Controlled Fan Using LM35 and Arduino PWM — fan speed automatically increases with room temperature using LM35 temperature sensor and PWM output to L298N motor driver | Automation / Motor | Arduino Uno, LM35, L298N, DC Fan, LCD |
| 21 | Single-Phase Energy Meter Interfacing with PIC Microcontroller — reads energy consumption data from existing energy meter pulse output and calculates kWh, unit cost and displays on LCD | Smart Meter | PIC16F877A, LCD 16×2, IR Sensor, MPLAB |
| 22 | LED Lighting Control for Energy Conservation Using PIR Motion Sensor — lights turn on only when motion is detected in a room; automatically switches off after 30 seconds of no motion | Energy Saving | Arduino Uno, PIR HC-SR501, Relay, LED |
| 23 | Three-Phase Fault Detection and Protection System Using Arduino — detects single phasing, over-voltage, under-voltage and phase reversal in 3-phase supply and activates alarm | Protection / Power | Arduino Mega, Transformer (3-phase), Relay, LCD |
| 24 | DC-DC Boost Converter (Step-Up) Design Using MOSFET and Arduino — converts 12V DC input to 24V/48V DC output using MOSFET switching, inductor and capacitor for EV and solar applications | Power Electronics | Arduino, MOSFET IRF540, Inductor, Capacitor |
| 25 | Wireless Electricity Theft Detection and GSM Alert System — compares energy consumed at transformer and consumer end; if mismatch exceeds threshold, GSM alert is sent to utility office | Smart Grid / GSM | Arduino Mega, ACS712, SIM800L, LCD |
| 26 | Solar-Powered LED Street Light with Auto Intensity Control — street light brightness automatically reduces at midnight and restores at dawn to save solar battery; LDR for dusk/dawn detection | Solar / Street Light | Solar Panel, Arduino, LDR, 12V Battery, LED Driver |
| 27 | Induction Motor Starter Using Star-Delta Switching (Timer-Based) — reduces starting current of 3-phase induction motor using time-delay relay-based star-to-delta changeover circuit | Electrical Machines | Contactors, Timer Relay, 3-Phase Motor, MCB |
* All diploma EEE projects include complete hardware kit, circuit diagram, source code (Arduino/PIC/Keil), project report in your polytechnic format, PPT, working video and 20 viva Q&A. WhatsApp us at +91 95919 12372 to confirm availability and delivery timeline.
Diploma EEE Project Domains
Browse diploma electrical engineering project ideas by domain — all practical and aligned with 2025–2026 polytechnic diploma syllabus requirements.
Solar Energy Diploma EEE Projects
Diploma EEE projects based on solar energy are among the most popular for 2026 — solar MPPT charger, solar water pump, solar street light with auto intensity control, solar panel power monitoring using ESP32 and ThingSpeak, and solar-powered irrigation system. These diploma electrical projects teach real-world renewable energy concepts and are highly appreciated by examiners.
IoT-Based Diploma Electrical Projects
Diploma EEE projects based on IoT use ESP8266/ESP32 Wi-Fi modules and Arduino to connect electrical systems to the internet — smart energy meter with cloud dashboard, home appliance monitoring, GSM billing alert system, automatic irrigation controller and smart street light. These diploma electrical IoT projects are trending and give students exposure to Industry 4.0 technologies.
Motor Control Diploma EEE Projects
Diploma EEE projects based on motor control cover DC motor speed control using PWM, BLDC motor control using Hall sensors, stepper motor position control, temperature-based fan speed control and induction motor protection circuits. These diploma electrical machine projects give practical understanding of motor drives used in industry and EVs.
Power Electronics Diploma EEE Projects
Power electronics projects for diploma students include single-phase inverter using MOSFET, AC-DC buck converter, DC-DC boost converter, power factor correction using capacitor bank, over-voltage protection circuit and automatic voltage regulator. These diploma EEE projects based on power electronics are core to the EEE curriculum and make excellent major project submissions.
Automation Diploma Electrical Projects
Diploma EEE projects based on automation include automatic street light using LDR, home automation using Arduino and Bluetooth, temperature-controlled fan, automatic plant irrigation, PIR motion sensor-based lighting and smart home energy monitor. These simple electrical projects for diploma students are practical and perfect for mini and major project submissions.
Energy Saving & Wind Energy Diploma Projects
Diploma EEE projects based on energy saving cover LED lighting with PIR auto-off, prepaid energy meter with RFID, electricity theft detection using GSM and wireless energy monitoring. Diploma EEE projects based on wind energy include wind-powered LED street light and small wind turbine battery charger — important topics for diploma EEE projects based on renewable energy.
25+ Electrical Engineering Project Topics for Students — 2026
A comprehensive list of electrical engineering project topics for Diploma, BE and BTech students — covering power systems, renewable energy, motor drives, smart metering, automation and energy conservation for 2025–2026 final year submissions.
| # | Electrical Engineering Project Topic | Domain | Key Components / Tools |
|---|---|---|---|
| 01 | Smart Grid-Integrated Solar Rooftop System with Net Metering Using Arduino and ESP32 — monitors bidirectional energy flow between rooftop solar panel and utility grid, logs net units exported and imported on cloud dashboard | Solar / Smart Grid | ESP32, INA219, ThingSpeak, PZEM-004T, LCD |
| 02 | Three-Phase Induction Motor Protection System Against Overload, Under-Voltage and Phase Failure — detects phase loss, over-voltage, under-voltage and overload conditions; trips contactor and sends GSM alert to operator | Motor Protection / Power | Arduino Mega, ACS712, LM358, Relay, GSM SIM800L |
| 03 | IoT-Based Real-Time Power Quality Monitoring System for Industrial Loads — measures voltage THD, current harmonics, power factor and demand using ESP32; streams data to ThingSpeak with alert on abnormality | Power Quality / IoT | ESP32, ZMPT101B, SCT-013, ThingSpeak, OLED |
| 04 | Bidirectional DC-DC Converter for Battery Energy Storage in Hybrid Renewable Energy System — buck-boost converter with Arduino control switches between charge and discharge modes for solar-wind hybrid battery bank | Power Electronics / Renewable | Arduino Uno, MOSFET IRF540, Inductor, MATLAB Simulink |
| 05 | Automated Demand Side Management System for Peak Load Reduction Using PLC — shifts non-critical loads (water heater, AC) to off-peak hours using programmable logic controller and real-time energy tariff data | Smart Grid / PLC | Siemens S7-1200 PLC, HMI, Relay, Energy Sensor |
| 06 | Wind Turbine Blade Pitch Control System for Maximum Power Extraction Using Arduino — servo-based pitch angle adjustment using perturb-and-observe MPPT algorithm on small-scale wind turbine test rig | Wind Energy | Arduino Uno, PMDC Generator, Servo Motor, Encoder |
| 07 | Electric Vehicle Battery Management System (BMS) with State-of-Charge Estimation Using Arduino — monitors cell voltages, temperature and estimates SoC using coulomb counting; activates cell balancing circuit when needed | EV / Battery Management | Arduino Mega, BQ76940 BMS IC, LiFePO4 Cells, CAN Bus |
| 08 | Wireless Power Transfer System for Low-Power IoT Devices Using Magnetic Resonance Coupling — transmits 5W wirelessly across 10–15 cm air gap using LC resonant coils; charges IoT sensor node without physical contact | Wireless Power / IoT | LCC Topology, Ferrite Coil, 13.56 MHz Driver, Rectifier |
| 09 | Hybrid Solar-Wind Energy Management System with Battery Storage and Load Sharing — automatically selects power source (solar/wind/battery/grid) based on availability and load demand using relay matrix and Arduino | Hybrid Renewable Energy | Arduino Mega, Solar Panel, PMDC Wind Gen, ACS712, Relay |
| 10 | Automated Power Factor Correction System for Industrial Inductive Loads Using Thyristor-Switched Capacitor Banks — measures power factor every 100 ms; fires appropriate SCR to switch capacitor bank and correct PF to above 0.95 | Power Factor / Industrial | SCR BT151, Arduino, ACS712, ZMPT101B, Capacitor Bank |
| 11 | Transformer Differential Protection Relay Simulation Using MATLAB/Simulink — simulates internal fault detection in power transformer using differential current comparison; models different fault conditions and relay trip logic | Protection / Simulation | MATLAB Simulink, SimPowerSystems, Protection Relay Toolbox |
| 12 | Energy Harvesting System from Vibration Using Piezoelectric Transducer for Wireless Sensor Node — converts mechanical vibrations from industrial machinery into usable DC to power a low-power wireless sensor transmitter | Energy Harvesting | PVDF Piezo, LTC3588 Harvester IC, Arduino Nano, nRF24L01 |
| 13 | Smart Feeder Monitoring System for Rural Distribution Network Using GSM and Arduino — monitors 11kV feeder current, voltage and fault condition at distribution transformer; sends SMS alert on feeder failure | Distribution / Smart Grid | Arduino Mega, CT Sensor, PT Module, SIM800L GSM, LCD |
| 14 | Single-Phase Grid-Connected Inverter with Anti-Islanding Protection Using PIC Microcontroller — synchronises inverter output with grid voltage and frequency; disconnects on island detection using rate-of-change-of-frequency (ROCOF) method | Grid-Connected / Power Electronics | PIC18F4550, IGBT Module, ZMPT101B, DSO, MPLAB |
| 15 | Automated Substation Monitoring and Control System Using SCADA and Arduino — simulates a mini substation with Arduino-based RTU; monitors transformer voltage, current and temperature; SCADA HMI on PC | SCADA / Substation | Arduino Mega, Modbus RTU, ScadaBR / InduSoft, Sensors |
| 16 | Brushless DC Motor Drive for Electric Two-Wheeler Using Field-Oriented Control — implements FOC algorithm on Arduino for smooth torque control of BLDC hub motor; includes regenerative braking circuit | EV / Motor Drive | Arduino Due, BLDC Hub Motor, MOSFET Gate Driver, Hall Sensor |
| 17 | Advanced Automatic Meter Reading (AMR) System with Tamper Detection and Cloud Logging — reads energy meter via IR pulse, detects magnetic/meter-cover tampering and logs all data to AWS IoT core over LTE | Smart Metering / AMR | ESP32, PZEM-004T, Hall Tamper Sensor, AWS IoT, OLED |
| 18 | Dual-Axis Solar Tracking System with MPPT for Maximum Energy Yield — uses LDR-based sensing to continuously align solar panel toward the sun on both azimuth and elevation axes; P&O MPPT maximises charging current | Solar Tracking / MPPT | Arduino Uno, Servo ×2, LDR ×4, MOSFET, Lead-Acid Battery |
| 19 | Fault Detection and Location in Underground Cable Using Time-Domain Reflectometry (TDR) Simulation — simulates pulse injection and reflection analysis in MATLAB to identify and localise open-circuit and short-circuit faults in LT cables | Cable Fault / Simulation | MATLAB Simulink, TDR Algorithm, SimPowerSystems, Signal Toolbox |
| 20 | Variable Frequency Drive (VFD) Simulation for Induction Motor Speed Control Using MATLAB/Simulink — simulates V/f open-loop and closed-loop speed control of 3-phase induction motor; includes PWM inverter, PI speed controller and torque analysis | Motor Drive / Simulation | MATLAB Simulink, SimPowerSystems, PI Controller, FFT Analysis |
| 21 | Electricity Theft Detection and Remote Disconnection System Using GSM and Energy Comparison — compares energy at main feeder and consumer meters; if mismatch exceeds 10%, GSM alert is sent and remote relay trips consumer supply | Smart Grid / Anti-Theft | Arduino Mega, ACS712 ×2, SIM800L, Relay, LCD, PZEM-004T |
| 22 | IoT-Based Street Light Monitoring and Fault Detection System for Municipal Corporations — each streetlight node reports ON/OFF status, failure and energy to cloud; municipal dashboard shows city-wide lamp health map in real time | Smart City / IoT | ESP32, ACS712, LDR, MQTT, Node-RED, Grafana Dashboard |
| 23 | Load Frequency Control (LFC) of Two-Area Interconnected Power System Using PID Controller — MATLAB Simulation — models two-area power system with thermal generators; designs PID controllers for both areas and simulates load perturbation response | Power Systems / Simulation | MATLAB Simulink, Control System Toolbox, SimPowerSystems |
| 24 | Automated Lightning Arrester Performance Monitoring System for 33kV Substation Using IoT — monitors leakage current through surge arresters; ESP32 logs current waveform and alerts maintenance team when degradation threshold is exceeded | Protection / Substation IoT | ESP32, CT Sensor (mA range), ThingSpeak, OLED, GSM Alert |
| 25 | Energy-Efficient Building Management System (BMS) with Occupancy-Based HVAC and Lighting Control — integrates PIR occupancy sensors, DHT22 temperature sensors and light sensors; ESP32 controls HVAC relay and LED dimmer to minimise energy without compromising comfort | Building Automation / BMS | ESP32, PIR HC-SR501, DHT22, BH1750 Lux, MQTT, Node-RED |
| 26 | Dynamic Reactive Power Compensation Using Static VAR Compensator (SVC) — MATLAB Simulation — models thyristor-controlled reactor (TCR) and fixed capacitor bank; simulates voltage regulation and reactive power absorption under varying lagging loads | Power Systems / FACTS | MATLAB Simulink, SimPowerSystems, Thyristor Model, FFT |
| 27 | Predictive Maintenance of Distribution Transformer Using Dissolved Gas Analysis (DGA) and Machine Learning — DGA sensor data (H₂, CH₄, CO) fed to Python ML classifier to predict incipient transformer faults before failure | Predictive Maintenance / AI | Arduino Mega, MQ-Series Gas Sensors, Python Scikit-Learn, LCD |
| 28 | Standalone Photovoltaic Water Pumping System with MPPT and Soft-Start Control for Agriculture — solar panel powers centrifugal pump via DC motor drive; MPPT maximises solar energy extraction; soft-start circuit prevents inrush current | Solar Agriculture | Arduino Uno, Solar Panel 50W, L298N, ACS712, LCD, Battery |
* All electrical engineering project topics listed above are available with complete hardware kit, circuit diagram, source code (Arduino / PIC / MATLAB Simulink), project report, PPT and viva Q&A support. WhatsApp +91 95919 12372 to confirm topic availability and delivery timeline.
FAQ — Diploma EEE Final Year Projects
Project Lab Gallery — Diploma EEE Projects Bangalore
A look inside our Diploma EEE project lab in Bangalore — Arduino project kits, solar panel test rigs, motor drive setups, PCB fabrication bench, IoT energy meter assemblies and Proteus simulation stations for diploma electrical engineering students.
Arduino Project Kit
Single-Phase Inverter
Solar Panel Test Rig
Motor Speed Control
IoT Smart Energy Meter
ESP32 IoT Automation
PCB Fabrication Bench
Proteus Simulation Lab
Battery Charger Project
Home Automation Kit