Abstract:
An electronic packaging having at least one bond pad positioned on a chip for effectuating through-wafer connections to an integrated circuit. The electronic package is equipped with an edge seat between the bond pad region and an active circuit region, and includes a crack stop, which is adapted to protect the arrangement from the entry of deleterious moisture and combination into the active regions of the chip containing the bond pads.

Description:
BACKGROUND OF THE INVENTION 
       [0001]    1. Field of the Invention 
         [0002]    The present invention relates to the provision of a bond pad for effecting through-wafer connections to an integrated circuit or electronic package, and wherein the bond pad includes a high surface area aluminum bond pad in order to resultingly obtain a highly reliable, low resistance connection between bond pads and electrical leads. In particular, the invention is directed to the addition of an edge seal between the bond pad region and an active circuit region, and includes a crack stop, which is adapted to protect the arrangement from the entry of deleterious moisture and combination into the active regions of the chip containing bond pads. 
         [0003]    In the current state-of-the-technology, through-wafer connections are frequently employed in the formation of advanced types of electronic packages, for instance, such as, but not limited to, 3D packaging, MEMS packaging, or CMOS imager packaging. In particular, the process which is utilized for these connections is designed to etch a via through the rear side of the wafer and through the bond pads, so as to expose the edges of the respective bond pads. Leads are then formed so as to connect the edges of the bond pads to solder bumps, which are arranged on the rear sides of the electronic package. Thus, for multilevel aluminum (Al) wiring, multiple levels are employed in order to form the connection between the leads and the bond pads so as to be able to obtain low resistance electrical connections. However, when employing (Cu) copper wiring, this particular approach is subject to a poor or relatively low degree of reliability in the use of multiple Cu levels to form connections between the bond pads and leads, as a consequence of oxidation and corrosion of the copper material. A single aluminum pad is frequently employed as a final metal layer in Cu interconnects processes. 
         [0004]    More recently, in order to improve upon the technology, novel structure has been developed, as is described and claimed in copending U.S. patent application Ser. No. 10/904,677, filed on Nov. 23, 2004, entitled “High Surface Area Aluminum Bond Pad For Through-Wafer Connections To An Electronic Package,” which is commonly assigned to the present assignee, and the disclosure of which is incorporated herein by reference in its entirety. 
         [0005]    That particular structure, as detailed in the above-mentioned copending application, may employ a single aluminum pad, but increases the surface area of this pad by forming via bars of either W (via bar width &lt;2× the thickness of W) or W+Al (via bar width &gt;2× the thickness of W) underneath the pad, or alternatively by adding metal on top of the pad. 
         [0006]    Via bars can be readily formed using a standard via mask or by using an additional mask. The depth of the via bar can be enhanced in two ways: (1) through a use of RIE (reactive ion etch) lag to obtain a much greater etch depth for the via bar compared to the via, or (2) by using an additional mask to form the via bars before the vias. Hereby, the surface area can also be increased by using an isotropic etch of the dielectric which is selective with regard to the metal (dilute HF for SiO 2  dielectric, O 2  plasma for organic dielectric), so as to recess the edge of the package via with respect to the metal. 
         [0007]    2. Discussion of the Prior Art 
         [0008]    In essence, although this may be directed to various diverse components, said packaging arrangements, contamination and entry of moisture is encountered by the packages through either the rear or the side edges thereof, in which conventional crack stop and edge seals are ineffective in attempting to protect the chip when utilizing new packaging methods, such as those disclosed for devices as CMOS image sensors, including the known Schott package as described in the disclosure of “New Wafer-Level-Packaging Technology Using Silicon-Via-Contacts for Optical and Other Sensor Applications”, by Jürgen Leib and Michael Töpper in the 2004 Electronic Components and Technology Conference Proceedings, pages 843-847, and Shellcase package, as described in “An Innovative Approach to Wafer-lever MEMS packaging,” by D. Teomin, A. Badihi and G. Zilber (Shellcase Ltd., Manhat Technology Park) in Solid State Technology, V.45, nil; January 2002; pages 57-62. These packages access the bond pads from the rear or the sides of the wafer. As a result, the conventional crack stop and edge seal is not ordinarily adequate in protection of the chip when employing these new packaging arrangements and methods in the technology. 
         [0009]    In the construction of other kinds of conventional devices, the crack stop and edge seals are also frequently inadequate to be able to preclude the entry of moisture and contaminating materials, which would adversely affect the functioning of the bond pads and the conventional electronics. 
         [0010]    Moreover, the Shellcase packaging illustrates the crack stop and also the sealing or edge seal being arranged internally of the region of the bond pads, whereas in a Schott package, as known in the technology, a guard ring comprising a seal is arranged interiorly of the area surrounded by bond pads, the latter of which are then exteriorly encompassed by a guard ring. 
       SUMMARY OF THE INVENTION 
       [0011]    Consequently, in one instance, as a protective measure against the ingress of moisture and contaminants, the present invention utilizes an edge seal and a crack stop, which are located inside the area encompassed by the bond pads on the surface of a semiconductor. 
         [0012]    For a further type of package, such as the Shellcase package, the crack stop and edge seal are both arranged inside of the bond pad, the latter of which is accessed by the last metal layer, which is preferably constituted of aluminum. Active copper (Cu) interconnects in the active region (and the devices in the Si) are protected from moisture and contamination by the edge seal and by the SiN capping layer on top of the uppermost copper (Cu) layer. 
         [0013]    Pursuant to this invention, a number of protective measures are available: 
         [0014]    According to a first aspect, the through-via connects to the last metal layer (Aluminum), and the crack stop is outside of the bond pad and the edge seat is located inside the region of the bond pad. 
         [0015]    Pursuant to a further embodiment, with regard to protection of the Schott package, the through-via connects to a local interconnect formed from the tungsten contacts and the edge seal is located inside the bond pad. An opening is provided in the edge seal so that the bond pad can connect to the interior of the chip without being electrically connected to the edge seal. 
         [0016]    Furthermore, pursuant to another feature with regard to protecting the Schott package, the through-via connects to the tungsten (W) contacts, which are connected to the device region by an Ml or higher metal layer. The through-via etch stops on the SiN layer, which is located on top of the Si. This SiN layer protects copper (Cu) and devices from contaminants, which arc associated with the through-via manufacturing process. The edge seal protects the copper (Cu) and devices from contaminants at the edge of the chip. 
         [0017]    The foregoing structure thus quite clearly provides features, which are advantageous in the implementation of the present invention. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0018]    Reference may now be made to the following detailed description of preferred embodiments of the invention, taken in conjunction with the accompanying drawings; in which: 
           [0019]      FIGS. 1A through 1C  illustrate sequential steps in the formation of a structure utilizing via bars underneath bond pads, which may be utilized in the incorporation of crack stops and edge seats pursuant to the invention; 
           [0020]      FIG. 2  is a diagrammatic plan view of a conventional electronic package structure; 
           [0021]      FIG. 3  is a diagrammatic plan view of a Shellcase package structure pursuant to the invention; 
           [0022]      FIG. 4  is a diagrammatic plan view of a Schott package pursuant to the invention; 
           [0023]      FIG. 5  is a diagrammatic sectional side view through a portion of a conventional electronic package; 
           [0024]      FIG. 6  is a diagrammatic sectional side view through a portion of the Shellcase package of  FIG. 3 ; 
           [0025]      FIG. 7  is a diagrammatic sectional side view through a portion of the Schott package of  FIG. 4 ; 
           [0026]      FIG. 8  is a diagrammatic plan view of an edge seal extending around a bond pad; 
           [0027]      FIG. 9  is a diagrammatic sectional side view through a portion of a Schott package pursuant to a modification of the invention; 
           [0028]      FIG. 10  is a top plan view of a part of  FIG. 9 ; 
           [0029]      FIG. 11  is a diagrammatic sectional side view through a portion of a Schott package pursuant to a further modification of the invention; and 
           [0030]      FIG. 12  is a plan view of a part of  FIG. 11 . 
       
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
       [0031]    As disclosed in the above-mentioned copending application Ser. No. 10/904,677, the following electronic package structure is deemed to be of interest, as applied hereto: 
         [0032]    A first one of an electronic package embodiment (W+Al via bar, no additional masks) is shown in  FIGS. 1A through 1C  of the drawings. 
         [0033]    Reverting in greater particularity to the drawings, and especially as exemplified in  FIGS. 1A through 1C , there is diagrammatically shown in  FIG. 1A  a side view of an electronic package  60  in which a notch has been formed to expose the bond pads. Provided is a glass plate  62 , the back surface thereof including a polymer layer  64 , and along the edges at one side consisting of silicon dioxide or silicon nitrate, and the rear surface of which is contacted by an Al or aluminum bond pad  66 . A via  68  is provided beneath the bond pad  66 . Tungsten (W) via bars  68  are provided at one end of bond pad  66 , to provide connection to the circuits. Tungsten (W) via bar  70  is provided beneath the bond pads  66 , and therebeneath a further glass plate is bonded thereto by means of epoxy and which forms the rear surface for the attachment thereto of BGA solder bumps (not shown). As shown in  FIG. 1B  of the drawings, which is a side view after the via etch has been implemented to the electronic package  60 , there is indicated that in the structure thereof an optional isotropic etch  76  may be provided extending diagonally across one edge so as to increase the surface area of the bond pad  66 . The via bars can also be formed from metals, such as tungsten, a combination of tungsten and aluminum, Cr, Au, Ni, NiMoP, Co, CoWP or CoWB. Copper leads may form a redistribution on top of a first BCB passivation layer and covered by a second BCB layer. 
         [0034]    Additionally, the structure, as described hereinbelow, may also include a wafer level packaging arrangement, such as the known Schott package, supra, in which there is a discussion of via holes and streets being formed with tapered sidewalls by means of a highly specialized plasma etching process, and wherein the contact pads are open from the backside of the package etching through the interdielectric layer. 
         [0035]    The edge  82  of the electronic package  60  may be cut at an angle relative to the normal for positioning of the leads interconnecting the bond pads. This eliminates the need for applying of the additional masks, as is provided for in the prior art. 
         [0036]    An RIE lag can be used so that via bars  70  are at a greater depth than vias  68 , and the isotropic etch, which is optional of the dielectric may be provided in connection with the type of metal employed where dilute HF is employed for SiO 2  dielectric, and O 2  plasma for an organic dielectric, for recessing or angling the edge of the package with regard to the metal. This also eliminates the requirement for an additional mask in comparison with the prior art. 
         [0037]    An additional metal layer, such as aluminum, gold, silver, silicon based solder, lead based solder, palladium, platinum, chromium, nickel, copper or alloys thereof can be added on top of the bond pad after forming a terminal via. The additional metal is formed by using a shadow mask to deposit the metal, wherein the aluminum is evaporated, and, if required as well, a barrier layer, such as of titanium, tantalum, tungsten, tantalum nitrate, tungsten nitrate, or titanium tungsten. These materials are not shown in the drawings. Suitable electroplating or electroless plating may be employed to add the metal layer, whereby electroless plating requires no additional masks. On the other hand, electroplating may require one or two additional masks, which define a seed layer used to electroplate metal, as is known in the art. Thereafter, an optional isotropic etch may be applied after an electronic package etch, so as to increase the bond pad surface at an essentially angular relationship relative to the normal. 
         [0038]    Referring to the top plan view of  FIG. 2 , this diagrammatically represents a conventional electronic package  90  pursuant to the prior art, showing a chip  92  including a plurality of bond pads  94 , arrayed proximate the perimeter thereof, wherein a crack stop  96  and a guard ring  98 , such as a seal, extends encompassingly exteriorly of the bond pads  94 . This configuration would not inhibit the entry of moisture through the sides or the back of the package  90 , and which may be detrimental to the efficacy in the functioning of the package circuitry (not shown), which is connected to the bond pads  94 . 
         [0039]    Turning, in particular, to the embodiment of the Shelcase package  100 , as disclosed diagrammatically in  FIG. 3  of the drawings, there is illustrated a semiconductor chip  102 , which includes a peripheral array of bond pads  104  and in which a crack stop  106  and a guard ring forming a seal  108  are both arranged to extend internally of the perimeter of the bond pads  104 . In that instance, inasmuch as these components  106 ,  108  are arranged internally of the region of the bond pads  104 , this enables the Shellcase package  100  to be protected against the ingress of either moisture or contaminants. 
         [0040]    With regard to the Schott package  110 , which is diagrammatically illustrated in  FIG. 4  of the drawings in a plan view, in that instance, a semiconductor chip  112  has a plurality of bond pads  116  arranged along the perimeter, and wherein externally encompassing the array of bond pads is a crack stop  118  in the shape of a ring, and wherein internally of the perimeter of the bond pads  114  is a guard ring forming a seal  120 , so as to protect the bond pads from the ingress of moisture and/or any contaminants, pursuant to the inventive concept. 
         [0041]    Referring in more specific detail to  FIG. 5  of the drawings, in that instance, shown in a partial sectional side view, is a conventional semiconductor or electronic package  130 , having probes  132  and bond pads  134  arranged on an upper layer  136  supported on an Si substrate  138 . Interiorly of a dicing channel  140  there is provided an edge seal  142  about the bond pads, and extending thereabout is a crack stop  144  in a form of a continuous seal, as is known. This arrangement, in essence, would not provide an adequate structure for inhibiting the ingress of moisture and/or contaminants to the components or bond pads and connections of the electronic package. 
         [0042]    Various optional arrangements for edge seals and crack stops in connection with Shellcase and Schott packages are set forth hereinbelow with references to  FIGS. 6 through 12  of the drawings. For purposes of clarity, only package components concerned with the invention are identified with reference numerals, as applicable. 
         [0043]    As indicated in  FIG. 6  of the drawings, there is illustrated the inventive arrangement of an edge seal and crack stop for a Shellcase package  150 , Located on a silicon substrate  152  are the active copper connects  154  and intermediate SiO2 layers  156 . A final layer  158  of aluminum facilitates access to a bond pad  160 , shown within the edge of a dicing cut  162  formed along a dicing channel. In this instance, as also represented by  FIG. 3  of the drawings, the edge seal  164  and the crack stop  166  (to seal cracks which are formed by the dicing process) are both located within the region of the bond pad  160  (or array of pads  104  in  FIG. 3 ). Hereby, the active copper (Cu) interconnects  154  in the active region of the package  150 , and the devices  168  in the Si layer or substrate  152  are protected from moisture and/or contamination by the edge seal  164 , and by the Si 3 N 4  capping layer  170  located on top of the uppermost Cu layer  172 . 
         [0044]    Set forth hereinbelow are various options in equipping a Schott package with edge seal and crack stop arrangements for preventing the ingress of moisture and/or contaminants into the package. 
         [0045]    Reverting to  FIGS. 7 and 8  of the drawings, there is illustrated a Schott package  180 , wherein components in this and subsequent embodiments which are similar or identical with those in the package  150  of  FIG. 6  are designed with the same reference numerals. In this particular embodiment of the invention (having also reference to the configuration shown in  FIG. 4  of the drawings), the Schott package  180  includes a through-via  182  for packaging leads which connect to the uppermost or final metal layer  184 , which may consist of aluminum (Al). Pursuant to the construction of this embodiment, as also detailed in the plan view of  FIG. 8 , the crack stop  186  is located externally of the bond pad  188  (or bond pad array  114  of  FIG. 4 ) towards the edge or perimeter of the package (or chip  112 ). The edge seal  190 , to the contrary, is located inwardly of the bond pad  188 , extending about three sides thereof (as shown in  FIG. 8  of the drawings). 
         [0046]    The foregoing package construction in which the edge seal  190  encompasses three sides of the bond pad towards the package interior, and the exterior perimeter is sealed by means of the crack stop  186  adjacent a dicing cut  182  prevents the ingress of moisture and potential contaminants into the electronic components of the Schott package. 
         [0047]    Reverting to  FIGS. 9 and 10  of the drawings, these show a modified Schott package  200  in side sectional and plan views. In this embodiment, a through-via  202  extends through a substrate Si layer  204  to a local interconnect formed from tungsten (W) contacts  206 . As illustrated, a lower portion of the edge seal  208 A is located inside of the bond pad  210 , with an opening  212  being formed in the edge seal to enable the bond pad  210  to connect to the interior for the chip without being electrically connected to the edge seal, the latter of which has a remainder  208 B extending upwardly. As in the preceding embodiment, a crack stop  214  extends outwardly of the bond pad proximate the perimeter of the package structure. This again provides a novel structure for guarding the electronic package components against the ingress of moisture and/or contaminants. 
         [0048]    As disclosed in  FIGS. 11 and 12  of the drawings, there is shown a sectional and top plan view of a portion of a further Schott package  220 . Pursuant to the package construction, a through-via  222  extends through the substrate Si layer  224  and bond pad  226  to tungsten (W) contacts  228 , or to a higher metal layer (consisting preferably of Cu connects/layers). The through-via edge seal  232  stops at a Si 3 N 4  layer  236 , which is located on top of the Si substrate layer  224 , whereby this Si2N 4  layer protects Cu contacts and layers and devices in the package from contaminants generated in the formation of the through-via. The edge seal  232  and outwardly located crack stop  234  at the perimetrical edge of the package (or semiconductor chip) proximate a dicing cut  238  forming a dicing channel protects the Cu components and electronic devices in the package  220  from contaminants at the edges thereof and from the ingress of water. 
         [0049]    From the foregoing, it becomes quite apparent that the novel arrangements and locations of the crack stops and edge seals or rings employed the various types of electronic package structures, provide a secure guard against the ingress of moisture and/or contaminants, which would tend to have an adverse effect of the operation and the reliability of the electronic package. 
         [0050]    While the present invention has been particularly shown and described with respect to preferred embodiments thereof; it will be understood by those skilled in the art that the foregoing and other changes in forms and details may be made without departing from the spirit and scope of the present invention. It is therefore intended that the present invention not be limited to the exact forms and details described and illustrated, but to fall within the spirit and scope of the appended claims.