US2008100421A1PendingUtilityA1

Variation of Conductive Cross Section and/or Material to Enhance Performance and/or Reduce Material Consumption of Electronic Assemblies

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Assignee: FEIN MICHAELPriority: Nov 2, 2004Filed: Dec 19, 2007Published: May 1, 2008
Est. expiryNov 2, 2024(expired)· nominal 20-yr term from priority
H01Q 23/00H05K 1/0263G06K 19/07749G06K 19/07786H01Q 9/16H05K 3/245H10W 72/07251H10W 72/20
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Claims

Abstract

An RFID antenna is fabricated according to varying current density requirements of different regions of the antenna. A method such as computer modeling is used to determine the current densities of the antenna regions. In one aspect of the invention, a conductive material is printed to a substrate at varying thickness according to current density requirements of particular antenna regions. In another aspect of the invention, materials of different conductivity are printed to the substrate according to the current density requirements. A material of higher conductivity is printed at an antenna region that requires high current density, and a material of lower conductivity is printed at antenna region that requires lower current density.

Claims

exact text as granted — not AI-modified
1 . An RFID tag, comprising: 
 a substrate;    an antenna formed on the substrate that includes first and second conductive traces, a first antenna region, and at least one second antenna region; and    an integrated circuit that is connected across the first and second conductive traces,    wherein the first antenna region is formed from a first material having a first conductivity and the at least one second antenna region is formed from a second material having a second conductivity, and    wherein the RFID tag further comprises a third antenna region having a third conductivity, wherein said first antenna region comprises an interconnect area, said second antenna region comprises a main antenna area, and said third antenna region comprises an intermediate antenna area, and wherein said first conductivity is greater than either of said second and third conductivity.    
   
   
       2 . The RFID tag of  claim 1  wherein the first antenna region is a first distance from the integrated circuit and the at least one second antenna region is a second distance from the integrated circuit.  
   
   
       3 . The RFID tag of  claim 1  wherein the first antenna region has a first current density and the at least one second antenna region has a second current density.  
   
   
       4 . The RFID tag of  claim 2  wherein the second distance is greater than the first distance.  
   
   
       5 . The RFID tag of  claim 1  wherein the first conductivity is greater than the second conductivity.  
   
   
       6 . The RFID tag of  claim 1  wherein the at least one second antenna region comprises a coil region.  
   
   
       7 . An RFID tag, comprising: 
 a substrate;    an antenna formed on the substrate that includes first and second conductive traces, a first antenna region, and at least one second antenna region; and    an integrated circuit that is connected across the first and second conductive traces,    wherein the first antenna region is formed at a first thickness and possesses a first conductivity,    wherein the at least one second antenna region is formed at a second thickness and possesses a second conductivity, wherein the RFID tag further comprises a third antenna region possessing a third conductivity, wherein said first antenna region comprises an interconnect area, said second antenna region comprises a main antenna area, and said third antenna region comprises an intermediate antenna area, and wherein said first conductivity is greater than either of said second conductivity and said third conductivity.    
   
   
       8 . The RFID tag of  claim 7  wherein the first antenna region is a first distance from the integrated circuit and the at least one second antenna region is a second distance from the integrated circuit.  
   
   
       9 . The RFID tag of  claim 8  wherein the second distance is greater than the first distance.  
   
   
       10 . The RFID tag of  claim 7  wherein the first antenna region has a first current density and the at least one second antenna region has a second current density.  
   
   
       11 . The RFID tag of  claim 7  wherein the at least one second antenna region comprises a coil region.  
   
   
       12 . A method of printing an RFID antenna with varying conductivity comprising: 
 determining current densities of a first region and at least one second region of the antenna;    determining conductivity requirements of the first and at least one second regions according to the current densities;    selecting a first material according to the conductivity requirements of the first region and a second material according to the conductivity requirements of the at least one second region; and    printing the first material to a substrate at the first region and the second material to the substrate at the at least one second region.    
   
   
       13 . The method of  claim 12  wherein the first antenna region has a first current density and the at least one second antenna region has a second current density, wherein said printing prints the first material to a substrate at the first region and the second material to the substrate at the at least one second region.  
   
   
       14 . The method of  claim 12 , wherein the first material has a first conductivity and the second material has a second conductivity, wherein the first conductivity is greater than the second conductivity, wherein said printing prints the first material to a substrate at the first region and the second material to the substrate at the at least one second region.  
   
   
       15 . The method of  claim 14  wherein the RFID antenna further comprises a third antenna region made from a third material having a third conductivity, wherein the first antenna region comprises an interconnect area, the second antenna region comprises a main antenna area, and the third antenna region comprises an intermediate antenna area, and wherein said first conductivity is greater than either the second and third conductivity, wherein said printing prints the first material to a substrate at the first region, the second material to the substrate at the at least one second region, and the third material to the substrate at the at least one third region.  
   
   
       16 . The method of  claim 14  wherein the RFID antenna further comprises a third antenna region made from a third material having a third conductivity, wherein the first antenna region comprises an interconnect area, the second antenna region comprises a main antenna area, and the third antenna region comprises an intermediate antenna area, and wherein said first conductivity is greater than either the second and third conductivity, wherein said printing prints the first material to a substrate at the first region at a first thickness according to the conductivity requirements of the first region, the second material to the substrate at the at least one second region at a second thickness according to the conductivity requirements of the second region, and the third material to the substrate at the at least one third region at a third thickness according to the conductivity requirements of the third region.

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