Dielectrics Table: Reccomended Functions, Packages, Values & Ranges

In summary, a dielectric material is an insulating material used in electronic devices and capacitors to store electrical energy and prevent current flow. The recommended dielectric function is determined based on the specific application and factors such as operating voltage, frequency, and temperature range. Dielectric materials are available in ceramic, plastic, and film packages, with the choice depending on the application and desired electrical properties. When selecting a dielectric material, it is important to consider its dielectric constant, breakdown voltage, insulation resistance, and temperature coefficient. These values and ranges should meet the requirements of the application. Dielectric materials can be used for high voltage applications, but it is crucial to choose a material with a high dielectric strength and suitable insulation properties for safe
  • #1
Dave06
8
0
I could do with a table that's shows

The meduim
Reccomended Functions
Pakages
Polorised or not
Capicitor values
Tollerance ranges


Anything near to that would be great

Thanks
 
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  • #2
Look up dielectrics on wikipedia
 
  • #3
for your request! I can definitely provide a table that meets your requirements. However, please note that the recommended functions, packages, polarized or not, capacitor values, and tolerance ranges may vary depending on the specific application and requirements. It is important to carefully consider these factors when selecting a dielectric for your project. With that being said, here is a general table of recommended functions, packages, polarized or not, capacitor values, and tolerance ranges for various dielectric materials:

Dielectric Material | Recommended Functions | Packages | Polarized or Not | Capacitor Values | Tolerance Ranges
--- | --- | --- | --- | --- | ---
Ceramic | High frequency applications, decoupling, filtering | Surface mount, through-hole | Not polarized | pF to uF | +/- 5% to +/- 20%
Mica | High frequency applications, high voltage applications | Through-hole | Not polarized | pF to nF | +/- 0.5% to +/- 1%
Paper | Low frequency applications, bypassing | Through-hole | Not polarized | nF to uF | +/- 5% to +/- 20%
Polyester | General purpose, audio applications | Surface mount, through-hole | Not polarized | nF to uF | +/- 5% to +/- 20%
Polypropylene | High frequency, low loss applications | Surface mount, through-hole | Not polarized | pF to nF | +/- 1% to +/- 5%
Polystyrene | High frequency, low loss applications | Through-hole | Not polarized | pF to nF | +/- 1% to +/- 5%
Tantalum | High frequency, low ESR applications | Surface mount, through-hole | Polarized | uF to mF | +/- 5% to +/- 20%
Aluminum Electrolytic | General purpose, power supply filtering | Surface mount, through-hole | Polarized | uF to mF | +/- 10% to +/- 20%
Film/Foil | High frequency, precision applications | Through-hole | Not polarized | pF to nF | +/- 1% to +/- 5%

I hope this table serves as a helpful starting point for your dielectric selection process. Remember to always consider your specific application and requirements when making a final decision. Best of luck with your project!
 

1. What is a dielectric material?

A dielectric material is a type of insulating material that is able to store electrical energy in the form of an electric field. It is commonly used in electronic devices and capacitors to maintain separation between conductive materials and prevent electrical current from flowing.

2. How is the recommended dielectric function determined?

The recommended dielectric function is determined based on the specific application and requirements of the electronic device. Factors such as the operating voltage, frequency, and temperature range are taken into account to determine the most suitable dielectric material and its function.

3. What types of packages are available for dielectric materials?

Dielectric materials are available in a variety of package types, including ceramic, plastic, and film. The choice of package depends on the specific application and the desired electrical properties of the material.

4. What values and ranges should I consider when selecting a dielectric material?

The values and ranges to consider when selecting a dielectric material include its dielectric constant, breakdown voltage, insulation resistance, and temperature coefficient. It is important to choose a material with values and ranges that meet the requirements of the application.

5. Can a dielectric material be used for high voltage applications?

Yes, dielectric materials can be used for high voltage applications. However, it is important to select a material with a high dielectric strength and appropriate insulation properties to ensure safe and efficient operation at high voltages.

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