Wireless Charging for Mobile Phones.

Slides:

Advertisements

Similar presentations

Wi-Pow! A Smart Solar Wireless Charger Katrina Maranon | Erika Aggarao | Nilda Flores | Angelo Sulit BUSINESS AND PROFESSIONAL DISCOURSE – S38 Wire-free.

Advertisements

WIRELESS POWER TRANSMISSION FOR MOBILE AND WHEELCHAIR CHARGING OF PHYSICALLY CHALLENGED PEOPLE PROJECT BY : REBECCA ROY.

The End Of The Plug?. What is it? Based on electromagnetic induction (using conductive materials in coils to create a magnetic field) Resonant Magnetic.

Assessment Questions 1-8. Generating electric current Electric current creates a magnetic field LT #2: Demonstrate and explain that an electric current.

Noadswood Science,  To understand how step-up and step-down transformers work Monday, August 10, 2015.

WITRICITY PREET KAMAL SINGH M.E. ELECTRONICS ME ~ WIRELESS ELECTRICITY.

PREET KAMAL SINGH M.E. ELECTRONICS ME

Inductors. Inductance Electrons in motion create electromagnetic fields – Recall from previous section that electrons in motion also create an electrostatic.

Principles of Physics Electromagnetic Induction. Changing magnetic fields can create a voltage (and thus cause current to flow) in a conductor A wire.

Institute ： Southern Taiwan University of Science and Technology Advisor ： Prof. Ju-Li Lin Advisee ： 4A012097Hao-Min Liu 4A012096Cheng-Ting Tsai 4A012096Cheng-Ting.

LO: Understand the uses of electromagnets

Electronic Engineering Final Year Project Progress Presentation Title: Electromagnetic shielding techniques for inductive powering applications Supervisor.

© 2010 Pearson Education, Inc. Conceptual Physics 11 th Edition Chapter 25: ELECTROMAGNETIC INDUCTION Electromagnetic Induction Faraday’s Law Generators.

Transformers. ► Electric Generators- the main function of an electric generator is to convert mechanical energy to electrical energy. ► Electric motors-

Electricity. What is electricity? Electric current – flow of electrons through a _______ Current (I) is measured by how many __________pass a given point.

Generator and Transformer. Moving Conductor If a straight conductor is moved in a path perpendicular to a magnetic field, a current is induced in the.

ELECTROMAGNETIC INDUCTION

MagnetismSection 3 Section 3: Electric Currents from Magnetism Preview Key Ideas Bellringer Electromagnetic Induction The Electromagnetic Force Transformers.

Bellringer What is one way to increase the strength of the magnetic field of a current?

ELECTRICAL CELLS & CURENTS. DRY CELL & WET CELL Wet Cell – the electrolyte is a liquid (car battery) i. In a car battery, Electrolyte is sulfuric acid.

Wireless Power The End of Chords Michael Russo. How it Works Electromagnetic Induction Resonant Magnetic Coupling- two objects exchange energy through.

Topic 12: Electromagnetic induction 12.3: Transmission of electrical power 12.3: Transmission of electrical power.

Mutual Inductance As in a transformer, changing the current in the primary coil causes an induced voltage in the secondary coil i.e. mutual induction has.

Chapter 21.  Electromagnetic induction is the process of generating a current by moving an electrical conductor relative to a magnetic field.  This.

Craig T. Riesen Energy Workshop II 1 Electricity & Generation Basics of Electricity and Electrical Transmission Transmission Generation electrons.

Technical Presentation Rob Haberstroh.  Brief History  Types of wireless power transmission  Examples  Future Outlook  Conclude.

Electricity Bingo!! It’s Electric (Boogy-Woogy). Words Amperes Chemical Conduction Conductor Contact Current Decreases Electric discharge Electric.

WIRELESS CHARGING Presented by: K.MAHESH (08T81A1236)

Energy Conversion Energy is all around you. You can hear energy as sound. You can see energy as light and you can feel energy as wind.

ELECTRICITY AND MAGNETISM UNIT 5. Transporting electricity The energy for generating electricity comes from different sources. The generator transforms.

Electromagnetism Notes-3

Magnetism and Electricity Vocabulary 4.3

Electromagnetism Notes-3

AC Power Transfer Wirelessly by HF

This topic looks at: How electricity is produced

COPY this please!.

& 13 transformers.

Electromagnetic Induction

When we generate power we ramp up the voltage for transmission (up to V) and then when it arrives at homes we ramp it back down for convenient use.

Magnetism and Electricity Vocabulary On-Level

What are transformers and how do they work?

Wireless Power Transmission (WPT)

Wireless charging FACULTY OF ENGINEERING AND INFORMATION TECHNOLOGY

Faraday’s Discovery.

Last lecture Motional EMF

Unit 4 Electricity and Magnetism

Electric Currents from Magnetism

Magnetism and Electricity Vocabulary 4.3

Topic 12: Electromagnetic induction

Producing Electric Current

OCR 21st Century Science Unit P5 a and b Revision

Electromagnetic Induction & Transformers

This topic looks at: How electricity is produced

This topic looks at: How electricity is produced

Magnetism and Electricity Vocabulary On-Level

WIRELESS CHARGING SUBMITTED BY- SUBHADIP MAHAPATRA (BCA 5-th SEMISTER) GUIDED BY-PIYALI SANYAL.

ELECTRICITY AND MAGNETISM

Unit 4 Electricity and Magnetism

This topic looks at: How electricity is produced

Electromagnetic induction

Charging by Magnetism Since you can create a magnetic field by running electricity through a wire, can you create electricity using a magnetic field?

Electric Charge Electric Charge Rules:

Electrical Energy Generation and Transmission

23.3 Induction and the Electric Generator

Warm-up Is it possible to create a circuit with wires, but no battery or other electrical power supply?

Presentation transcript:

Wireless Charging for Mobile Phones

Wireless Charging In wireless chargers primary coil generate a current in the secondary coil and the device being charged.

This process is done with a charging station Continue.. Inductive charging also known as Wireless Charging uses an electromagnetic field to transfer power in between two objects through electromagnetic induction. This process is done with a charging station

Induction chargers use an induction coil to create an alternating electromagnetic field from within a charging base, and a second induction coil in the portable device takes power from the electromagnetic field and converts it back into electric current to charge the battery..

The two induction coils in proximity combine to form an electrical transformer. Greater distances between sender and receiver coils can be achieved when the inductive charging system uses resonant inductive coupling

Recent improvements to this resonant system include using a movable transmission coil (i.e. mounted on an elevating platform or arm) and the use of other materials for the receiver coil made of silver plated copper or sometimes aluminium to minimize weight and decrease resistance due to the skin effect.

Advantages Recent improvements to this resonant system include using a movable transmission coil (i.e. mounted on an elevating platform or arm) and the use of other materials for the receiver coil made of silver plated copper or sometimes aluminium to minimize weight and decrease resistance due to the skin effect.

Low infection risk – For embedded medical devices, transmission of power via a magnetic field passing through the skin avoids the infection risks associated with wires penetrating the skin.

Increased convenience and aesthetic quality – No need for cables Durability – Without the need to constantly plug and unplug the device, there is significantly less wear and tear on the socket of the device and the attaching cable. Increased convenience and aesthetic quality – No need for cables

Disadvantages Slower charging – Due to the lower efficiency, devices take longer to charge when supplied power is the same amount.

Inconvenience - When mobile device is connected to a cable, it can be freely moved around and operated while charging. In most implementations of inductive charging, the mobile device must be left on a pad to charge, and thus can't be moved around or easily operated while charging.

More expensive – Inductive charging also requires drive electronics and coils in both device and charger, increasing the complexity and cost of manufacturing.

Portable electronics and devices Examples Portable electronics and devices Qi devices Dual standard Transportation

Conductive power transfer uses a conductor to connect two electronic devices in order to transfer energy It is therefore not a form of wireless power transfer, which explicitly does not use conductors.

Follow us on:-