Nanocrystalline / Silicon Steel (CRGO) Cut Core

Flexible soft magnetic core design, widely used in high frequency, high power transformers for converters, in drives, traction, power supplies.

Product Detail

Key Properties:

Inherit the simple structure of the traditional C cores
Clamp-on core design, safer, easier installation, portable, don’t need to cut of the grid-power when adjust the inductance.
Energy conservation & environment protection, huge potential market

Main Option:

Magnetic Material: Silicon Steel ( CRGO); Nanocrystalline
Core Shape Design: Toroidal Core, Rectangular Core, Oval Core
Cutting Location: Average Cutting, Un-equal Cutting

Typical Specification

Silicon Steel

Nano Crystalline

Bs (T)

2

1.2

HC (Oe)

0.5

0.1

Initial Permeability (µo)

1500

>100000

Max. Permeability (µm)

2 x 10⁴

1 x 10⁶

Resistivity

50

80

Curie Temperature (°C)

750

570

Crystallization

-

510/570

Main Application:

Widely used in high frequency, high power transformers for converters, in drives, traction, power supplies.

Cut Core Application

Produce Description:

We supply Nanocrystalline Cut Core and Split current transformers based on clients request, information request including:

1. Core Material:

2. Detailed Size ( based on drawing):

As an leading manufacturer of amorphous and nanocrystalline core products, Coilcore provides quality services to customers with high-performance products and one-stop solutions. By leaving a message below to get more details about Split Cut Core quickly!

Hot Tags :

current transformer split core nano split cores split nano core amorphous cut core nanocrystalline c core nanocrystalline c-core

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Subject : Nanocrystalline / Silicon Steel (CRGO) Cut Core

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Current Transformer Core

Split Core

Nanocrystalline / Silicon Steel (CRGO) Cut Core

Typical Specification	Silicon Steel	Nano Crystalline
Typical Specification	Silicon Steel	Nano Crystalline
Bs (T)	2	1.2
HC (Oe)	0.5	0.1
Initial Permeability (µo)	1500	>100000
Max. Permeability (µm)	2 x 10⁴	1 x 10⁶
Resistivity	50	80
Curie Temperature (°C)	750	570
Crystallization	-	510/570