DESIGN AND IMPLEMENTATION OF IOT ENABLED SMART SOLAR BATTERY BANK MONITORING SYSTEM

Project Title

DESIGN AND IMPLEMENTATION OF IOT ENABLED SMART SOLAR BATTERY BANK MONITORING SYSTEM

Project Area of Specialization Electrical/Electronic EngineeringProject Summary

This idea can be used for automobiles as well as battery banks used in industrial and renewable power applications. Nowadays, electric vehicle is becoming popular since the fuel prices becoming more expensive. Due to these scenarios, many vehicle manufacturers looking for alternatives of energy sources other than gas. The use of electrical energy sources may improve the environment since there are less pollution. In addition, it produces great advantages in terms of energy saving and environmental protection. Most used rechargeable battery which is maintenance free battery. It is smaller to be compared with lead acid. Maintenance free battery life cycle can be shortened by some reasons such as overcharging and deep discharges. On the other hand, usually has limited range of travelling due to battery size and body structure. Now, an important reason that limits the application of   is the safety of existing battery technology. For example, overcharging battery not only could significantly shorten the life of the battery, but also cause a serious safety accident such as fire. Therefore, a battery monitoring system for   that can notify the user about battery condition is necessary to prevent the stated problems.

Previous battery monitoring system only monitor and detect the condition of the battery and alarmed the user via battery indicator inside the vehicle. Due to the advancement of the design of notification system, internet of things (IoT) technology can be used to notify the manufacturer and users regarding the battery status. This can be considered as one of the maintenance support range of devices and everyday things can be connected via the internet, making the world is at the user’s finger tips. Motivating by the stated problems, in this work, the design and development of a battery monitoring system using IoT technology is proposed. In most areas there are no automatic monitoring system available to notify the user with regard to the performance of the battery. Therefore, the used of IoT technology that incorporates together within the monitoring system can help in improving the preventive maintenance in ensuring the battery quality and increase the safety of the user.

Project Objectives

• Battery charging through solar charger.
• Automatic operation and power harnessing.
• Automatic power generation and storage in advance battery.
• High power battery charging with ampere monitoring through IOT.
• Smartphone interfacing through android app.
• Battery level indicators.
• Battery temperature monitoring.

Project Implementation Method

Battery Management:

• User Interface
• Electrical Control

Battery State:

• State Determination

Battery Monitoring :

• Current
• Voltage 
• Temperature

Communication:

• Mobile interface

Data Acquision:

• Thermal Management 
• Safety Protection

Benefits of the Project

Operation costs are minimized. Require much less maintenance. Since external wires are eliminated, risk of accidents are minimized.  Electricity produced from solar panels is non-pollutive. Energy costs can be saved.

1. Operation costs are minimized.
2. Require much less maintenance.
3. Since external wires are eliminated, risk of accidents are minimized.
4.  Electricity produced from solar panels is non-pollutive.
5. Energy costs can be saved. 

Technical Details of Final Deliverable

Final deliverable is a complete prototype real time system and a base camp.

Final Deliverable of the Project HW/SW integrated systemCore Industry Energy Other IndustriesCore Technology Internet of Things (IoT)Other TechnologiesSustainable Development Goals Industry, Innovation and InfrastructureRequired Resources

Elapsed time in (days or weeks or month or quarter) since start of the project	Milestone	Deliverable
Month 1	Nov-2020 TO December-2020	Literature Review
Month 2	Jan- 2021 Feb-2021	Arrangement of Micro-controller, Batteries / PV Panels
Month 3	March- 2021 April -2021	Designing of hardware schematics.
Month 4	April - 2021 July -2021	Programming.
Month 5	July-2021 Oct -2021	Burning and testing of program
Month 6	Oct -2021 Dec-2021	Final Year Project Report