US2006091018A1PendingUtilityA1

Methods for reducing protrusions and within die thickness variations on plated thin film

46
Assignee: CAO YANGPriority: Mar 25, 2003Filed: Dec 1, 2005Published: May 4, 2006
Est. expiryMar 25, 2023(expired)· nominal 20-yr term from priority
H10P 14/47C25D 5/617C25D 5/18
46
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Claims

Abstract

Embodiments of the invention provide methods for electroplating a substrate that substantially reduce or eliminate protrusions and decrease WID thickness variations. The number of protrusions formed on the plating surface is highly dependent upon the electroplating current density. Embodiments of the invention vary the electroplating current waveform by implementing an initial current step sufficient to fill substrate features and a terminal current step sufficient to achieve the specified plating thickness while suppressing protrusions and within die thickness variations.

Claims

exact text as granted — not AI-modified
1 - 9 . (canceled)  
   
   
       10 . An apparatus comprising: 
 a substrate having one or more features formed thereon; and    a layer of conductive metal formed on the substrate by electroplating the substrate using an electroplating current waveform having an initial current step that causes the one or more features to be filled with the conductive metal, and a terminal current step that suppresses the formation of protrusions of the conductive metal.    
   
   
       11 . The apparatus of  claim 10  wherein the substrate is silicon and the conductive metal is a metal selected from the group consisting essentially of copper, silver, gold and alloys thereof.  
   
   
       12 . The apparatus of  claim 10  wherein at least one of the plurality of features has a sub-micron dimension and a high aspect ratio.  
   
   
       13 . The apparatus of  claim 10  wherein the initial current step is sufficient to fill the plurality of features with the conductive metal.  
   
   
       14 . The apparatus of  claim 10  wherein the initial current step is not sufficient to fill the plurality of features with the conductive metal and wherein the electroplating current waveform has an intermediate current step that is sufficient to fill the plurality of features with the conductive metal.  
   
   
       15 . The apparatus of  claim 14  wherein a total thickness of the conductive metal electroplated onto the substrate is approximately 1.0 micron.  
   
   
       16 . The apparatus of  claim 15  wherein the terminal current step has a current level that is higher than approximately 15.75 A.  
   
   
       17 . The apparatus of  claim 14  wherein a total thickness of the conductive metal electroplated onto the substrate is approximately 0.5 microns.  
   
   
       18 . The apparatus of  claim 17  wherein the terminal current step has a current level that is higher than approximately 6.25 A.  
   
   
       19 . The apparatus of  claim 10  wherein electroplating the substrates using the terminal current step reduces the within die thickness variation of the layer of conductive metal formed on the substrate.  
   
   
       20 - 26 . (canceled)  
   
   
       27 . An electroplating waveform for electroplating conductive metal film on a substrate comprising; 
 an initial current step to fill a plurality of features formed within the substrate; and    a terminal current step having a current level and duration that suppresses the formation of protrusions of the conductive metal from the conductive metal film.    
   
   
       28 . The electroplating waveform of  claim 27  wherein the terminal current step results in a reduction of within die thickness variations.  
   
   
       29 . The electroplating waveform of  claim 28  wherein the initial current step is insufficient to fill the plurality of features further comprising: 
 an intermediate current step to fill any of the plurality of features not filled by the initial current step.    
   
   
       30 . The electroplating waveform of  claim 29  wherein a ratio of a portion of the conductive metal film formed by the initial current step and the intermediate current step to a portion of the conductive metal film formed by the terminal current step, multiplied by a reciprocal of the total thickness of the conductive metal film is less than 0.4.

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