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Through-Hole Inductors

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1XC0118-2T0-10

Laird

Datasheet

10KHz 4A 2μH 9mΩ ±25% horizontal mounting，Through hole mounting 12mm(length)

Quantity: 0

Ship Date: 7-12 working days

3360+ $0.8097

Ext. Price: $2720.59

MOQ: 3360

Mult: 3360

SPQ: 1

Inquiry

1XC0236-2T0-10

Laird

Datasheet

10KHz 13A 2μH 3mΩ ±25% Plugins horizontal mounting，Through hole mounting 21.5mm(length)

Quantity: 0

Ship Date: 6-13 working days

240+ $1.8165

3360+ $1.8165

Ext. Price: $435.96

MOQ: 240

Mult: 1

SPQ: 1

Inquiry

1XC0236-0T0-10

Laird

Datasheet

10KHz 6A 6μH 14mΩ ±25% Plugins horizontal mounting，Through hole mounting 21.5mm(length)

Quantity: 0

Ship Date: 6-13 working days

240+ $1.4796

3360+ $1.4385

Ext. Price: $355.10

MOQ: 240

Mult: 1

SPQ: 1

Inquiry

1XC0118-1T0-10

Laird

Datasheet

10KHz 2.4A 4μH 24mΩ ±25% Plugins horizontal mounting，Through hole mounting 12mm(length)

Quantity: 0

Ship Date: 6-13 working days

480+ $0.9587

3360+ $0.9587

6720+ $0.8505

Ext. Price: $460.17

MOQ: 480

Mult: 1

SPQ: 1

Inquiry

1XC0236-1T0-10

Laird

Datasheet

10KHz 8.5A 4μH 7mΩ ±25% Plugins horizontal mounting，Through hole mounting 21.5mm(length)

Quantity: 0

Ship Date: 6-13 working days

240+ $1.617

3360+ $1.617

Ext. Price: $388.08

MOQ: 240

Mult: 1

SPQ: 1

Inquiry

1XC0394-0T0-10

Laird

Datasheet

10KHz 9A 15μH 16mΩ ±25% horizontal mounting，Through hole mounting 30mm(length)

Quantity: 0

Ship Date: 6-13 working days

192+ $3.1395

3456+ $3.1395

Ext. Price: $602.78

MOQ: 192

Mult: 1

SPQ: 1

Inquiry

1XC0118-3T0-10

Laird

10KHz 7A 1μH 3mΩ ±25% horizontal mounting，Through hole mounting 12mm(length)

Quantity: 0

Ship Date: 6-13 working days

480+ $0.8484

3360+ $0.8484

6720+ $0.7529

Ext. Price: $407.23

MOQ: 480

Mult: 1

SPQ: 1

Inquiry

1XC0394-2T0-10

Laird

Datasheet

10KHz 19A 6μH 4mΩ ±25% horizontal mounting，Through hole mounting 30mm(length)

Quantity: 0

Ship Date: 7-12 working days

3456+ $3.6829

Ext. Price: $12728.10

MOQ: 3456

Mult: 3456

SPQ: 1

Inquiry

1XC0394-1T0-10

Laird

Datasheet

10KHz 12.5A 10μH 8.5mΩ ±25% Plugins horizontal mounting，Through hole mounting 30mm(length)

Quantity: 0

Ship Date: 6-13 working days

192+ $2.6355

3456+ $2.6355

Ext. Price: $506.01

MOQ: 192

Mult: 1

SPQ: 1

Inquiry

Through-Hole Inductors

Through Hole Inductors: Definition, Function, Applications, and Selection Criteria

Definition:
Through Hole Inductors (THI) are passive electronic components designed to store energy in a magnetic field when an electric current flows through them. They are characterized by having leads that pass through holes in a printed circuit board (PCB) for mounting and electrical connection.

Function:
The primary function of a through hole inductor is to provide inductance, which is the property of a component that opposes changes in current flow. This opposition is due to the magnetic field created by the current. Inductors are used to filter signals, block high-frequency noise, and provide energy storage in various electronic circuits.

Applications:
1. Signal Filtering: Inductors are used in filters to block or pass specific frequency ranges, helping to clean up signals in communication systems.
2. Power Supplies: They are integral in smoothing the output of power supplies, reducing noise and voltage.
3. RF Applications: In radio frequency (RF) circuits, inductors are used for impedance matching, tuning circuits, and signal coupling.
4. EMI/RFI Suppression: They help to suppress electromagnetic interference (EMI) and radio frequency interference (RFI) in sensitive electronic devices.
5. Energy Storage: In energy storage applications, inductors can temporarily store energy in the form of a magnetic field.

Selection Criteria:
1. Inductance Value: The inductance value (measured in henries) is critical and must be chosen based on the specific requirements of the circuit.
2. Current Rating: The inductor must be able to handle the current levels expected in the application without overheating or saturating.
3. Frequency Range: The operating frequency of the circuit will influence the choice of inductor, as different inductors have different performance characteristics at various frequencies.
4. Physical Size: The size of the inductor should be compatible with the available space on the PCB.
5. Temperature Stability: For applications with varying temperatures, inductors with stable inductance over a wide temperature range are preferred.
6. Quality Factor (Q): A higher Q factor indicates better energy storage efficiency and less energy loss in the form of heat.
7. Cost: The cost of the inductor should be considered in relation to the performance and reliability required for the application.

Through hole inductors are a versatile component in the design of electronic circuits, and their selection should be based on a careful consideration of the above criteria to ensure optimal performance.
Please refer to the product rule book for details.