摘要:
Structure providing more reliable fuse blow location, and method of making the same. A vertical metal fuse blow structure has, prior to fuse blow, an intentionally damaged portion of the fuse conductor. The damaged portion helps the fuse blow in a known location, thereby decreasing the resistance variability in post-blow circuits. At the same time, prior to fuse blow, the fuse structure is able to operate normally. The damaged portion of the fuse conductor is made by forming an opening in a cap layer above a portion of the fuse conductor, and etching the fuse conductor. Preferably, the opening is aligned such that the damaged portion is on the top corner of the fuse conductor. A cavity can be formed in the insulator adjacent to the damaged fuse conductor. The damaged fuse structure having a cavity can be easily incorporated in a process of making integrated circuits having air gaps.
摘要:
Structure providing more reliable fuse blow location, and method of making the same. A vertical metal fuse blow structure has, prior to fuse blow, an intentionally damaged portion of the fuse conductor. The damaged portion helps the fuse blow in a known location, thereby decreasing the resistance variability in post-blow circuits. At the same time, prior to fuse blow, the fuse structure is able to operate normally. The damaged portion of the fuse conductor is made by forming an opening in a cap layer above a portion of the fuse conductor, and etching the fuse conductor. Preferably, the opening is aligned such that the damaged portion is on the top corner of the fuse conductor. A cavity can be formed in the insulator adjacent to the damaged fuse conductor. The damaged fuse structure having a cavity can be easily incorporated in a process of making integrated circuits having air gaps.
摘要:
E-fuse structures in back end of the line (BEOL) interconnects and methods of manufacture are provided. The method includes forming an interconnect via in a substrate in alignment with a first underlying metal wire and forming an e-fuse via in the substrate, exposing a second underlying metal wire. The method further includes forming a defect with the second underlying metal wire and filling the interconnect via with metal and in contact with the first underlying metal wire thereby forming an interconnect structure. The method further includes filling the e-fuse via with the metal and in contact with the defect and the second underlying metal wire thereby forming an e-fuse structure.
摘要:
E-fuse structures in back end of the line (BEOL) interconnects and methods of manufacture are provided. The method includes forming an interconnect via in a substrate in alignment with a first underlying metal wire and forming an e-fuse via in the substrate, exposing a second underlying metal wire. The method further includes forming a defect with the second underlying metal wire and filling the interconnect via with metal and in contact with the first underlying metal wire thereby forming an interconnect structure. The method further includes filling the e-fuse via with the metal and in contact with the defect and the second underlying metal wire thereby forming an e-fuse structure.
摘要:
A metal fuse structure using redundant vias formed on one metal level in a stacked via metal fuse structure to force failures to occur in the metal level that does not have the redundant vias. The metal fuse structure includes a first dielectric layer having a conductor, a second dielectric layer above the first dielectric layer having a first conductive line and a first via, the first via is on the conductor, the first conductive line is on the first via, the first via is the only electrical connection between the first conductive line and the conductor, and a third dielectric layer above the second dielectric layer having a second conductive line, a second via and a third via, the second via and the third via are both on the first conductive line, the second conductive line is on both the first via and the second via.
摘要:
Structure providing more reliable fuse blow location, and method of making the same. A vertical metal fuse blow structure has, prior to fuse blow, an intentionally damaged portion of the fuse conductor. The damaged portion helps the fuse blow in a known location, thereby decreasing the resistance variability in post-blow circuits. At the same time, prior to fuse blow, the fuse structure is able to operate normally. The damaged portion of the fuse conductor is made by forming an opening in a cap layer above a portion of the fuse conductor, and etching the fuse conductor. Preferably, the opening is aligned such that the damaged portion is on the top corner of the fuse conductor. A cavity can be formed in the insulator adjacent to the damaged fuse conductor. The damaged fuse structure having a cavity can be easily incorporated in a process of making integrated circuits having air gaps.
摘要:
A metal fuse structure using redundant vias. The redundant vias are formed on one metal level in a stacked via metal fuse structure to force failures to occur in the metal level that does not have the redundant vias. The metal fuse structure includes: a first dielectric layer having a metal feature; a second dielectric layer having a first metal connector embedded therein; and a third dielectric layer having a second metal connector embedded therein. The metal connectors include at least one via and one line, and at least one metal connector has at least two vias.
摘要:
A method for capping lines includes forming a metal film layer on a copper line by a selective deposition process, the copper line disposed in a dielectric substrate, wherein the depositing also results in the deposition of stray metal material on the surface of the dielectric substrate, and etching with an isotropic etching process to remove a portion of the metal film layer and the stray metal material on the surface of the dielectric substrate, wherein the metal film layer is deposited at an initial thickness sufficient to leave a metal film layer cap remaining on the copper line following the removal of the stray metal material.
摘要:
A fuse structure for an integrated circuit device includes an elongated metal interconnect layer defined within an insulating layer; a metal cap layer formed on only a portion of a top surface of the metal interconnect layer; and a dielectric cap layer formed on both the metal cap layer and the remaining portions of the metal interconnect layer not having the metal cap layer formed thereon; wherein the remaining portions of the metal interconnect layer not having the metal cap layer formed thereon are susceptible to an electromigration failure mechanism so as to facilitate programming of the fuse structure by application of electric current through the elongated metal interconnect layer.
摘要:
A fuse structure includes within an aperture within a dielectric layer located over a substrate that exposes a conductor contact layer within the substrate a seed layer interposed between the conductor contact layer and another conductor layer. The seed layer includes a doped copper material that includes a dopant immobilized predominantly within the seed layer. The fuse structure may be severed while not severing a conductor interconnect structure also located over the substrate that exposes a second conductor contact layer within a second aperture. In contrast with the fuse structure that includes the doped seed layer having the immobilized dopant, the interconnect structure includes a doped seed layer having a mobile dopant.