अमूर्त

DSP BASED FUZZY LOGIC CONTROLLER FOR BATTERY CHARGER

Gaurav .R. Thakur, Ankita .A. Chauhan, Rajat .M. Agrawal, Anvay Nandurkar

Human beings in 21 century mainly depends on machines that need energy to give required output & rechargeable batteries are main source of energy in many cases as it is used widely, but is required to adapt new technology for recharging batteries so that overcharging of battery don’t occur which leads to battery damage. Research centre for computational intelligence made progress in making battery charger compitable with future need by developing partially DSP based fuzzy logic controller for a battery charger so that overcharging problem is solved. This project is an approach towards the development of a device which can control the charging of battery to specific level efficiently without damaging it in any way. We will be discussing over the various tools of MATLAB like FUZZY LOGIC and DSP PROCESSOR which are available to device this instrument. We will go for in-depth discussion regarding theory and working of each tool in detail. We will have a brief description on the scope of these controllers. We will be evaluating the scope and impact of these tools to control the overcharging automatically. Beside all these we will throw some light on how we can evaluate the safety speed of charging for different battery. After this we will show the various salient features of our system and discuss its compatibility. An analysis of the various challenges which this device may face with its suggested solutions will be discussed. At last before coming to the conclusion we will have an insight to the future remarks and development of this device as per future needs. The conclusions will reveal the impact of this device globally and will show its real merit. The aim of our project is to develop a DSP based fuzzy logic controller which will charge the battery to its optimum level and also preventing it from overcharging, by continuously monitoring its current and voltage. Experimental results have shown that DSP+FUZZY was to correctly adapt its charging according to the maximum level of charging. The learning process of charging battery using DSP based fuzzy logic controller is still on, encouraging for the computation of project.

अस्वीकृति: इस सारांश का अनुवाद कृत्रिम बुद्धिमत्ता उपकरणों का उपयोग करके किया गया है और इसे अभी तक समीक्षा या सत्यापित नहीं किया गया है।

जर्नल हाइलाइट्स

अंकीय संकेत प्रक्रिया अतुल्यकालिक संकलन अधोचालकसंचालन अनुकूली संकेत संकेत अलग नेटवर्किंग आर्टिफ़िशियल क्लिनिक और इलेक्ट्रिकल में इलेक्ट्रिक ड्राइवर और उत्पाद इलेक्ट्रॉनिक सामग्री इलेक्ट्रॉनिक्स में आर्टिफिशियल ब्यूरो उपग्रह संचार एपीसैन निदान एवं संवेदन प्रणाली नियंत्रण सिद्धांत और सिद्धांत पावर इलेक्ट्रॉनिक कन्वर्टर्स का विश्लेषण बायो इलेक्ट्रॉनिक्स बिजली की गुणवत्ता और आपूर्ति की लागत के आर्थिक मूल्यांकन बेसिक इलेक्ट्रिकल इंजीनियरिंग भार एवं विद्युत पावर प्लांट की विद्युत एवं औषधि उपयोगिताएँ विद्युतचुंबकीय क्षणिक कार्यक्रम (ईएमआई) विद्युतीकरण

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