How Coils WorkA basic introduction into Coil technology.

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Sumida’s Coil Technology

Sumida produces and distributes coils and transformer products, based on skilful wire winding technology.

Our main customers are in the following industries: Consumer Electronics Entertainment Industry Automotive Electronics Industrial & Medical Equipment

Copyright© 2014 SUMIDA CORPORATION. All rights reserved.

What is a Coil ?

Coil: A component of an electronic device

A coil is called the L element, capacitor C, and resistance R.

L, C and R are passive components and play an important role in helping the working of IC and transistor circuits.

A coil is a wire wound in a spiral. When a wire is wound, it takes on various characteristics that are different from straight wire. The characteristics are used for various electronic / electric devices and equipment.

A Coil is an indispensable component for an electronic device They play an important role to maximize the performance of electronic devices and may greatly affect the performance of products. Sumida designs and develops the best coils for our customers needs.

A coil has 5 major functions and is applied to various electronic devices. This presentation will explain 5 function of the coils and the characteristics of our coil technology. L, C and R are passive components

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The 5 Functions of a Coil

Self Induction Effect

Mutual Induction

Effect

Resonance Effect

Electro-Magnet

Effect

Electro-Magnetic Induction

Effect

A Coil has 5 major functions and is applied to various electronic devices.

When current flows in the coil, the coil resists the flow. This characteristic is called the self induction effect.

Electric power or signal can be transferred between two separate coils. This is known as the mutual induction effect.

Combination of a coil (L) and a capacitor (C) generates a resonance effect.

When current flows through a coil, a magnetic

field is generated and attracts

magnetic materials (iron & nickel).

This is known as the

electromagnetic effect.

When a magnet moves through a

coil, voltage appears on both ends of the coil.

This is known as the electromagnetic induction effect.

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The Self Induction EffectApplication of the Self Induction Effect

When current flows in the coil, the coil resists the flow. This becomes strongly apparent at higher frequencies. This characteristic is used in the power supply circuit to change alternating current (AC) to direct current (DC). If a rectifier, instead of a coils is used, the output of the rectifier contains a ripple current and is not a complete DC.

The output of a rectifier contains ripple current, and is not a complete DC.

input rectifier output

Combination of a coil and a capacitor works against AC, and produces stable DC.

outputcapacitorcoilinput

Self Induction

Effect

Mutual Induction

Effect

Resonance Effect

Electro-Magnet

Effect

Electro-Magnetic Induction

Effect

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The Mutual Induction EffectApplication of the Mutual Induction Effect

The Transformer utilizes this effect. The output voltage is determined by the ratio of turns between the primary and secondary coils.

Inductance is the measure of the value of a coil. More turns makes larger inductance.

Electric power can be transferred between two coils around a core.

input output

The output voltage is determined by the ratio of turns between the primary and secondary coils.

input outputvolta

ge vo

ltag

e

Self Induction

Effect

Mutual Induction

Effect

Resonance Effect

Electro-Magnet

Effect

Electro-Magnetic Induction

Effect

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The Resonance EffectApplication of the Resonance Effect

A certain frequency of signal is tuned by a resonance effect. The tuning circuit that selects a particular radio station utilizes this effect.

Combination of a coil (L) and a capacitor (C) generates a resonance effect.

(frequency)Resonance Frequency

current

A certain frequency of signal is tuned by a resonance effect.

current

(frequency)Resonance Frequency

Self Induction

Effect

Mutual Induction

Effect

Resonance Effect

Electro-Magnet

Effect

Electro-Magnetic Induction

Effect

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The Electromagnet EffectApplication of the Electromagnet Effect

An electromagnet is applied to various equipment: ABS coils in a car, motors, electromagnetic brakes, buzzers, doorbells, clocks, watches, speakers, earphones, etc…

When current flows through a coil, the iron core of a coil becomes an electromagnet.

When no current flows through a coil, an electromagnet effect is not generated.

Self Induction

Effect

Mutual Induction

Effect

Resonance Effect

Electro-Magnet

Effect

Electro-Magnetic Induction

Effect

Copyright© 2014 SUMIDA CORPORATION. All rights reserved.

Application of the Electro-Magnetic Induction Effect

When a magnet moves through a coil, voltage appears on both ends of the coil. Microphones and generators utilize this effect.

The Electro-Magnetic Induction Effect

When a magnet does not move through a coil, current does not flow.

When a magnet moves through a coil, induced current flows.

Self Induction

Effect

Mutual Induction Effect

Resonance Effect

Electro-Magnet

Effect

Electro-Magnetic Induction

Effect