How Do You Calculate Sheet Resistance of a Copper Layer in an IC?

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To calculate the sheet resistance of a copper layer in an integrated circuit, the resistivity of copper and the thickness of the layer are essential. The resistivity of copper is given as 1.7 at a temperature coefficient of 0.0039 degrees C^(-1). The basic formula for sheet resistance is the resistivity divided by the thickness of the layer. For a 100 nm thick copper layer, the sheet resistance can be calculated using this equation. Understanding these principles is crucial for accurate calculations in semiconductor design.
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Homework Statement


he thickness of a copper layer, deposited to create the interconnecting tracks in an IC is 100 nm. Copper resistivity: 1.7 at 0.0039 degrees C^(-1)
What is the sheet resistance of the copper layer at 27 C?

Homework Equations


The Attempt at a Solution


I don't know what equations to use to calculate the sheet resistance. Can I get some assistance in what equation to use?
 
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sup17 said:

Homework Statement


he thickness of a copper layer, deposited to create the interconnecting tracks in an IC is 100 nm. Copper resistivity: 1.7 at 0.0039 degrees C^(-1)
What is the sheet resistance of the copper layer at 27 C?


Homework Equations





The Attempt at a Solution


I don't know what equations to use to calculate the sheet resistance. Can I get some assistance in what equation to use?

Please re-post the question -- there appear to be typos in the post. Also include units for each quantity.

The basic equation for resistance is

R = \rho \frac{L}{A}

Are you familiar with that equation?
 
Thanks! That really helps.
 

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