Electrically programmable fuse and fabrication method
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01L-023/52
출원번호
US-0085632
(2011-04-13)
등록번호
US-8378447
(2013-02-19)
발명자
/ 주소
Chanda, Kaushik
Filippi, Ronald G.
Lukaitis, Joseph M.
Wang, Ping-Chuan
출원인 / 주소
International Business Machines Corporation
인용정보
피인용 횟수 :
0인용 특허 :
40
초록▼
An electrically programmable fuse includes an anode, a cathode, and a fuse link conductively connecting the cathode with the anode, which is programmable by applying a programming current. The anode and the fuse link each include a polysilicon layer and a silicide layer formed on the polysilicon lay
An electrically programmable fuse includes an anode, a cathode, and a fuse link conductively connecting the cathode with the anode, which is programmable by applying a programming current. The anode and the fuse link each include a polysilicon layer and a silicide layer formed on the polysilicon layer, and the cathode includes the polysilicon layer and a partial silicide layer formed on a predetermined portion of the polysilicon layer of the cathode located adjacent to a cathode junction where the cathode and the fuse link meet.
대표청구항▼
1. An electrically programmable fuse comprising: an anode;a cathode;a fuse link conductively connecting the cathode with the anode, which is programmable by applying a programming current,the anode and the fuse link each comprising a polysilicon layer and a silicide layer formed on the polysilicon l
1. An electrically programmable fuse comprising: an anode;a cathode;a fuse link conductively connecting the cathode with the anode, which is programmable by applying a programming current,the anode and the fuse link each comprising a polysilicon layer and a silicide layer formed on the polysilicon layer, and the cathode comprising the polysilicon layer and a partial silicide layer formed on a predetermined portion of the polysilicon layer of the cathode located adjacent to a cathode junction where the cathode and the fuse link meet, wherein a width of the partial silicide layer of the cathode is a same width as that of the fuse link; anda plurality of contacts formed on the anode and the cathode in a predetermined configuration, wherein at least one contact of the plurality of contacts is formed on the partial silicide layer which is formed on the predetermined portion of the polysilicon layer of the cathode. 2. The electrically programmable fuse of claim 1, wherein the at least one contact of the plurality of contacts is formed along a longitudinal axis of the fuse link. 3. The electrically programmable fuse of claim 1, wherein the partial silicide layer is formed beneath the at least one contact, and extends to the cathode junction. 4. The electrically programmable fuse of claim 3, wherein the width of the partial silicide layer of the cathode corresponds to a number of contacts positioned near the cathode junction. 5. The electrically programmable fuse of claim 3, further comprising a plurality of programming wires including a first programming wire and a second programming wire, wherein when programming, the first programming wire applies the programming current through the contacts formed on the cathode and the programming current flows to the fuse link, wherein the partial silicide layer along with a portion of the silicide layer of the fuse link adjacent to the cathode junction are depleted, thereby forming a localized silicide depletion region, and the second programming wire receives and dissipates the programming current through the fuse link and the contacts formed on the anode. 6. The electrically programmable fuse of claim 3, further comprising a plurality of programming wires including a first programming wire and a second programming wire, wherein when programming, the first programming wire applies the programming current through the plurality of contacts formed on the cathode except the at least one contact, and then the programming current flows to the partial silicide layer beneath the at least one contact and to the fuse link, wherein the partial silicide layer along with a portion of the silicide layer of the fuse link adjacent to the cathode junction are depleted, thereby forming a localized silicide depletion region, and the second programming wire receives and dissipates the programming current through the fuse link and the contacts formed on the anode. 7. The electrically programmable fuse of claim 1, wherein a polysilicon doping level of a non-silicide coated region and a silicide coated region of the electrically programmable fuse is uniform, the polysilicon doping level ranges between 1014 atoms/cm3 and 1016 atoms/cm3. 8. The electrically programmable fuse of claim 1, wherein a polysilicon doping level of the electrically programmable fuse is non-uniform, wherein the polysilicon doping level of a non-silicide coated region of the electrically programmable fuse is higher than the polysilicon doping level of a silicide coated region of the electrically programmable fuse, the polysilicon doping level of the non-silicide coated region ranges between 1017 atoms/cm3 and 1019 atoms/cm3, and the polysilicon doping level of the silicide coated region of the electrically programmable fuse ranges between 1014 atoms/cm3 and 1016 atoms/cm3. 9. The electrically programmable fuse of claim 1, wherein the silicide layer is formed from a metal layer comprising one of nickel, cobalt, titanium or platinum, or a combination thereof. 10. The electrically programmable fuse of claim 1, further comprising a plurality of sensing wires comprising a first sensing wire and a second sensing wire to sense a resistance of the electrically programmable fuse between the at least one contact formed near the cathode junction and the contacts formed on the anode.
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