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Ferrite Rings Around Cables
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Iron Powder Core Ferrite Rings Around Cables for High Temperature Applications

Iron Powder Core Ferrite Rings Around Cables for High Temperature Applications

Brand Name: VIIP
Model Number: V180173T
MOQ: 100PCS
Price: Negotiable
Payment Terms: T/T, Western Union
Detail Information
Place of Origin:
china
Certification:
Rohs Reach
Type:
Clap-on
Material:
Nizn
Product Name:
Ferrite Chokes
Application:
For Cables
Color:
Black Or Grey
Model:
V180173T
Supply Ability:
5k For one week
Highlight:

High Temperature Ferrite Rings Around Cables

,

Iron Powder Ferrite Rings Around Cables

Product Description

Iron Powder Core Ferrite Rings Around Cablesk Plastic Shell Welding Transformers

 

Quick Detail:

 

  • Place of Origin:Guangdong, China
  • Brand Name:VIIP
  • Model Number:V180173T
  • Type:Soft
  • Composite:Ferrite Magnet
  • Shape:Cylindrical
  • Application:Industrial Magnet
  • Tolerance:±1%
  • Delivery Time:within 7 days
  • Item name:ferrite core
  • Material:Nizn
  • Impedance:155 ohm min at 100MHz
  • Operation Temperature:-40 to +125°C

Description:

 

This is a ferrite ring, not a magnet. It has no magnetism.
Iron powder core is generally stored near signals of place.
It has the characteristics of isolating eddy current, low permeability and restraining interference.
 

 

Specifications:

 

 

Applications:

Used widely in power transformers, current transducers, instrument transformers, inductors, chokes, ballasts, voltage stabilizers and regulators, welding transformers, broad band transformers, filters, etc.

 

Iron Powder Core Ferrite Rings Around Cables for High Temperature Applications 0Iron Powder Core Ferrite Rings Around Cables for High Temperature Applications 1

 

 

Iron Powder Core Ferrite Rings Around Cables for High Temperature Applications 2

How do we choose the clip on ferrite core

When choosing a clip-on ferrite core for EMI suppression, there are several factors to consider to ensure that the core is effective for the specific application. Here are some key considerations:

Cable Diameter: Select a ferrite core that is compatible with the diameter of the cable or wire it will be installed on. Ferrite cores come in various sizes and internal diameters, so it's important to choose a core that can securely clip onto the cable without being too loose or too tight.

Frequency Range: Determine the frequency range of the electromagnetic interference that needs to be suppressed. Different ferrite materials and core designs are optimized for specific frequency ranges. Choose a ferrite core that is suitable for the frequency range of the EMI that needs to be mitigated.

Material and Impedance: Ferrite cores are available in different materials and with different impedance characteristics. The material and impedance of the ferrite core should be selected based on the type of EMI and the impedance of the cable or circuit. Higher impedance ferrite cores are more effective at suppressing high-frequency EMI.

Good price  online

Products Details

Home > Products >
Ferrite Rings Around Cables
>
Iron Powder Core Ferrite Rings Around Cables for High Temperature Applications

Iron Powder Core Ferrite Rings Around Cables for High Temperature Applications

Brand Name: VIIP
Model Number: V180173T
MOQ: 100PCS
Price: Negotiable
Payment Terms: T/T, Western Union
Detail Information
Place of Origin:
china
Brand Name:
VIIP
Certification:
Rohs Reach
Model Number:
V180173T
Type:
Clap-on
Material:
Nizn
Product Name:
Ferrite Chokes
Application:
For Cables
Color:
Black Or Grey
Model:
V180173T
Minimum Order Quantity:
100PCS
Price:
Negotiable
Delivery Time:
5-8 days
Payment Terms:
T/T, Western Union
Supply Ability:
5k For one week
Highlight:

High Temperature Ferrite Rings Around Cables

,

Iron Powder Ferrite Rings Around Cables

Product Description

Iron Powder Core Ferrite Rings Around Cablesk Plastic Shell Welding Transformers

 

Quick Detail:

 

  • Place of Origin:Guangdong, China
  • Brand Name:VIIP
  • Model Number:V180173T
  • Type:Soft
  • Composite:Ferrite Magnet
  • Shape:Cylindrical
  • Application:Industrial Magnet
  • Tolerance:±1%
  • Delivery Time:within 7 days
  • Item name:ferrite core
  • Material:Nizn
  • Impedance:155 ohm min at 100MHz
  • Operation Temperature:-40 to +125°C

Description:

 

This is a ferrite ring, not a magnet. It has no magnetism.
Iron powder core is generally stored near signals of place.
It has the characteristics of isolating eddy current, low permeability and restraining interference.
 

 

Specifications:

 

 

Applications:

Used widely in power transformers, current transducers, instrument transformers, inductors, chokes, ballasts, voltage stabilizers and regulators, welding transformers, broad band transformers, filters, etc.

 

Iron Powder Core Ferrite Rings Around Cables for High Temperature Applications 0Iron Powder Core Ferrite Rings Around Cables for High Temperature Applications 1

 

 

Iron Powder Core Ferrite Rings Around Cables for High Temperature Applications 2

How do we choose the clip on ferrite core

When choosing a clip-on ferrite core for EMI suppression, there are several factors to consider to ensure that the core is effective for the specific application. Here are some key considerations:

Cable Diameter: Select a ferrite core that is compatible with the diameter of the cable or wire it will be installed on. Ferrite cores come in various sizes and internal diameters, so it's important to choose a core that can securely clip onto the cable without being too loose or too tight.

Frequency Range: Determine the frequency range of the electromagnetic interference that needs to be suppressed. Different ferrite materials and core designs are optimized for specific frequency ranges. Choose a ferrite core that is suitable for the frequency range of the EMI that needs to be mitigated.

Material and Impedance: Ferrite cores are available in different materials and with different impedance characteristics. The material and impedance of the ferrite core should be selected based on the type of EMI and the impedance of the cable or circuit. Higher impedance ferrite cores are more effective at suppressing high-frequency EMI.