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Inductor Coil

Name: Inductor Coil
Brand: G T ELECTRONIC (INDIA) PRIVATE LIMITED
Price: 500 INR
Availability: InStock

Price 500 INR/ Piece

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MOQ : 500 Pieces

Inductor Coil Specification

Operating Temperature
-20C to 80C

Interface
Wire terminal

Response Time
Instantaneous

Power Supply
AC/DC

Usage
Electronic Circuitry

Features
Compact design, High efficiency, Durable

Power Source
External Circuit

Components
Wound Copper Wire, Ferrite Core

Thermal Conductivity
Low

Output
Induced Voltage

Input
Electric Current

Product Type
Inductor Coil

Application
Transformers, Filters, Oscillators

Rated Voltage
250V

Supply Voltage
250V AC/DC

Size
Medium

Dimension (L*W*H)
21mm x 12mm x 12mm

Function
Electromagnetic Induction

Color
Copper / Brown

Weight
Approx. 15g

Thickness
Standard gauge (varies)

Current Rating
0.1A - 2A

Capacity
Varies as per design

Frequency
Up to 50kHz

Lead Type
Radial

RoHS Compliance
Yes

Shape
Cylindrical

Mounting Type
PCB Mount

Humidity Range
<90% RH

Dielectric Strength
>1000V

Material
Enamelled Copper Wire

Resistance
Low DC resistance (<2 ohms)

Core Type
Ferrite

Inductance Value
10uH to 100mH (depends on model)

Number of Turns
200-500

Life Expectancy
>10 Years

Contact Material
Nickel Plated

About Inductor Coil

GT Electronic India is a well experienced manufacturer of customized toroidal chokes, high current chokes, output chokes, EMI filters, power inductors and power supply filtering chokes for various applications.

Features and Versions (based on customer`s application):

Toroidal or EI
Iron powder and Si-Fe ferrites
Mounting can be horizontal or vertical
Manufacturing with mounting/base plate or encapsulated with potting/vacuum potting
Manufacturing in customized terminals like SMD PIN, through hole PIN or flying leads with crimp/connectors
Construction according to EN 61558-1, UL insulation system for class F (GT owned), RoHS and REACH conformity

High Performance & Durability

Constructed with premium enamelled copper wire and a ferrite core, this inductor coil guarantees durability and consistent performance. Its low DC resistance and high dielectric strength make it suitable for demanding electronic environments, ensuring longevity in operation exceeding ten years. The compact cylindrical shape allows for flexible placement on PCBs without compromising on efficiency.

Versatile Applications Across Electronics

This coil's broad inductance range and robust current handling make it ideal for transformers, oscillators, and filtering circuits. Designed for both AC and DC supplies up to 250V, it adapts seamlessly to diverse power requirements in electronic devices, providing reliable electromagnetic induction for smooth circuit functionality.

FAQ's of Inductor Coil:

Q: How is the inductor coil installed on a circuit board?

A: The inductor coil features a radial lead and PCB mount design, making installation straightforward. Simply align the leads with corresponding holes on the PCB, insert, and solder them securely to create a stable electrical connection.

Q: What are the benefits of using a ferrite core in this inductor coil?

A: A ferrite core offers high magnetic permeability, which enhances inductance and reduces core losses. This ensures efficient energy transfer and minimizes electromagnetic interference in electronic circuits, making it suitable for high-frequency applications.

Q: When should I choose this inductor coil for my application?

A: Choose this coil when your project requires inductance values between 10uH and 100mH, operates up to 250V AC/DC, and demands robust, compact, reliable components for transformers, filters, or oscillators in electronic circuitry.

Q: What process is involved in manufacturing this inductor coil?

A: The coil is manufactured by tightly winding 200-500 turns of enamelled copper wire around a ferrite core. The assembly is then fitted with nickel-plated contacts, ensuring strong conductivity and durability. Quality checks for resistance, dielectric strength, and environmental compliance are part of the manufacturing process.

Q: Where can this inductor coil be used?

A: It is ideal for use in various electronic devices and applications, such as transformers, voltage filters, oscillators, and power circuits, particularly where efficient electromagnetic induction and high durability are required.

Q: What usage conditions are recommended for optimal operation?

A: For optimal performance, operate the inductor coil within -20C to 80C, under humidity levels less than 90% RH, and ensure the supply voltage does not exceed 250V AC/DC as specified.

Q: What are the key benefits offered by this inductor coil?

A: Key benefits include high efficiency, robust durability (with over ten years of life expectancy), low DC resistance for minimal power loss, RoHS compliance, and ease of integration due to its compact, PCB-mountable design.

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