Patents by Inventor Fu-Chen Chang
Fu-Chen Chang has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11682456Abstract: Methods for programming memory cells of a resistive memory device include applying a voltage pulse sequence to a memory cell to set a logic state of the memory cell. An initial set sequence of voltage pulses may be applied to the memory cell, followed by a reform voltage pulse having an amplitude greater than the amplitudes of the initial set sequence, and within ±5% of the amplitude of a voltage pulse used in an initial forming process. Additional voltage pulses having amplitudes that are less than the amplitude of the reform voltage pulse may be subsequently applied. By applying a reform voltage pulse in the middle of, or at the end of, a memory set sequence including multiple voltage pulses, a resistive memory device may have a larger memory window and improved data retention relative to resistive memory devices programmed using conventional programming methods.Type: GrantFiled: August 28, 2021Date of Patent: June 20, 2023Assignee: Taiwan Semiconductor Manufacturing Company LimitedInventors: Fu-Chen Chang, Chu-Jie Huang, Nai-Chao Su, Kuo-Chi Tu, Wen-Ting Chu
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Patent number: 11611038Abstract: Various embodiments of the present application are directed towards a resistive random-access memory (RRAM) cell comprising a barrier layer to constrain the movement of metal cations during operation of the RRAM cell. In some embodiments, the RRAM cell further comprises a bottom electrode, a top electrode, a switching layer, and an active metal layer. The switching layer, the barrier layer, and the active metal layer are stacked between the bottom and top electrodes, and the barrier layer is between the switching and active metal layers. The barrier layer is conductive and between has a lattice constant less than that of the active metal layer.Type: GrantFiled: February 9, 2021Date of Patent: March 21, 2023Assignee: Taiwan Semiconductor Manufacturing Company, Ltd.Inventors: Fu-Chen Chang, Kuo-Chi Tu, Wen-Ting Chu, Chu-Jie Huang
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Publication number: 20230065132Abstract: A method for fabricating a semiconductor device is provided. The method includes depositing a ferroelectric layer over the substrate; performing a first ionized physical deposition process to deposit a top electrode layer over the ferroelectric layer; patterning the top electrode layer into a top electrode; and patterning the ferroelectric layer to into a ferroelectric element below the top electrode.Type: ApplicationFiled: August 30, 2021Publication date: March 2, 2023Applicant: TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY, LTD.Inventors: Tzu-Yu CHEN, Hsin-Yu LAI, Sheng-Hung SHIH, Fu-Chen CHANG, Kuo-Chi TU
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Publication number: 20230062850Abstract: Methods for programming memory cells of a resistive memory device include applying a voltage pulse sequence to a memory cell to set a logic state of the memory cell. An initial set sequence of voltage pulses may be applied to the memory cell, followed by a reform voltage pulse having an amplitude greater than the amplitudes of the initial set sequence, and within ±5% of the amplitude of a voltage pulse used in an initial forming process. Additional voltage pulses having amplitudes that are less than the amplitude of the reform voltage pulse may be subsequently applied. By applying a reform voltage pulse in the middle of, or at the end of, a memory set sequence including multiple voltage pulses, a resistive memory device may have a larger memory window and improved data retention relative to resistive memory devices programmed using conventional programming methods.Type: ApplicationFiled: August 28, 2021Publication date: March 2, 2023Inventors: Fu-Chen CHANG, Chu-Jie HUANG, Nai-Chao SU, Kuo-Chi TU, Wen-Ting CHU
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Publication number: 20230017020Abstract: Various embodiments of the present disclosure are directed towards a memory cell in which an interfacial layer is on a bottom of a ferroelectric layer, between a bottom electrode and a ferroelectric layer. The interfacial layer is a different material than the bottom electrode and the ferroelectric layer and has a top surface with high texture uniformity compared to a top surface of the bottom electrode. The interfacial layer may, for example, be a dielectric, metal oxide, or metal that is: (1) amorphous; (2) monocrystalline; (3) crystalline with low grain size variation; (4) crystalline with a high percentage of grains sharing a common orientation; (5) crystalline with a high percentage of grains having a small grain size; or 6) any combination of the foregoing. It has been appreciated that such materials lead to high texture uniformity at the top surface of the interfacial layer.Type: ApplicationFiled: January 11, 2022Publication date: January 19, 2023Inventors: Tzu-Yu Chen, Sheng-Hung Shih, Fu-Chen Chang, Kuo-Chi Tu
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Patent number: 11557609Abstract: A structure includes a semiconductor substrate, a gate structure, a source/drain feature, a source/drain contact, a dielectric layer, and a ferroelectric random access memory (FERAM) structure. The gate structure is on the semiconductor substrate. The source/drain feature is adjacent to the gate structure. The source/drain contact lands on the source/drain feature. The dielectric layer spans the source/drain contact. The FeRAM structure is partially embedded in the dielectric layer and includes a bottom electrode layer on the source/drain contact and having an U-shaped cross section, a ferroelectric layer conformally formed on the bottom electrode layer, and a top electrode layer over the ferroelectric layer.Type: GrantFiled: March 4, 2021Date of Patent: January 17, 2023Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY, LTD.Inventors: Tzu-Yu Chen, Sheng-Hung Shih, Fu-Chen Chang, Kuo-Chi Tu
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Publication number: 20230011895Abstract: A method for efficiently waking up ferroelectric memory is provided. A wafer is formed with a plurality of first signal lines, a plurality of second signal lines, a plurality of third signal lines, and a plurality of ferroelectric memory cells that constitute a ferroelectric memory array. Each of the ferroelectric memory cells is electrically connected to one of the first signal lines, one of the second signal lines and one of the third signal lines. Voltage signals are simultaneously applied to the first signal lines, the second signal lines and the third signal lines to induce occurrence of a wake-up effect in the ferroelectric memory cells.Type: ApplicationFiled: July 8, 2021Publication date: January 12, 2023Applicant: TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY, LTD.Inventors: Tzu-Yu CHEN, Sheng-Hung SHIH, Fu-Chen CHANG, Kuo-Chi TU, Wen-Ting CHU
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Publication number: 20220384464Abstract: A semiconductor device includes a bottom electrode, a top electrode, a sidewall spacer, and a data storage element. The sidewall spacer is disposed aside the top electrode. The data storage element is located between the bottom electrode and the top electrode, and includes a ferroelectric material. The data storage element has a peripheral region which is disposed beneath the sidewall spacer and which has at least 60% of ferroelectric phase. A method for manufacturing the semiconductor device and a method for transforming a non-ferroelectric phase of a ferroelectric material to a ferroelectric phase are also disclosed.Type: ApplicationFiled: May 27, 2021Publication date: December 1, 2022Applicant: Taiwan Semiconductor Manufacturing Company, Ltd.Inventors: Tzu-Yu CHEN, Sheng-Hung SHIH, Fu-Chen CHANG, Kuo-Chi TU, Wen-Ting CHU
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Publication number: 20220285373Abstract: A structure includes a semiconductor substrate, a gate structure, a source/drain feature, a source/drain contact, a dielectric layer, and a ferroelectric random access memory (FERAM) structure. The gate structure is on the semiconductor substrate. The source/drain feature is adjacent to the gate structure. The source/drain contact lands on the source/drain feature. The dielectric layer spans the source/drain contact. The FeRAM structure is partially embedded in the dielectric layer and includes a bottom electrode layer on the source/drain contact and having an U-shaped cross section, a ferroelectric layer conformally formed on the bottom electrode layer, and a top electrode layer over the ferroelectric layer.Type: ApplicationFiled: March 4, 2021Publication date: September 8, 2022Applicant: TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY, LTD.Inventors: Tzu-Yu CHEN, Sheng-Hung SHIH, Fu-Chen CHANG, Kuo-Chi TU
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Publication number: 20220285376Abstract: A method for fabricating a semiconductor device is provided. The method includes depositing a bottom electrode layer over a substrate; depositing a ferroelectric layer over the bottom electrode layer; depositing a first top electrode layer over the ferroelectric layer, wherein the first top electrode layer comprises a first metal; depositing a second top electrode layer over the first top electrode layer, wherein the second top electrode layer comprises a second metal, and a standard reduction potential of the first metal is greater than a standard reduction potential of the second metal; and removing portions of the second top electrode layer, the first top electrode layer, the ferroelectric layer, and the bottom electrode layer to form a memory stack, the memory stack comprising remaining portions of the second top electrode layer, the first top electrode layer, the ferroelectric layer, and the bottom electrode layer.Type: ApplicationFiled: March 4, 2021Publication date: September 8, 2022Applicant: TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY, LTD.Inventors: Tzu-Yu CHEN, Sheng-Hung SHIH, Fu-Chen CHANG, Kuo-Chi TU, Wen-Ting CHU, Alexander KALNITSKY
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Publication number: 20220231034Abstract: In an embodiment, a structure includes one or more first transistors in a first region of a device, the one or more first transistors supporting a memory access function of the device. The structure includes one or more ferroelectric random access memory (FeRAM) capacitors in a first inter-metal dielectric (IMD) layer over the one or more first transistors in the first region. The structure also includes one or more metal-ferroelectric insulator-metal (MFM) decoupling capacitors in the first IMD layer in a second region of the device. The MFM capacitors may include two or more capacitors coupled in series to act as a voltage divider.Type: ApplicationFiled: April 4, 2022Publication date: July 21, 2022Inventors: Tzu-Yu Chen, Kuo-Chi Tu, Fu-Chen Chang, Chih-Hsiang Chang, Sheng-Hung Shih
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Publication number: 20220231033Abstract: A method of forming a semiconductor device includes forming an inter-metal dielectric layer over a substrate; forming a first conductive line embedded in the inter-metal dielectric layer; forming a dielectric structure over the inter-metal dielectric layer and the first conductive line; etching the dielectric structure until the first conductive line is exposed; forming a bottom electrode layer on the exposed first conductive line such that the bottom electrode layer has an U-shaped when viewed in a cross section; forming a ferroelectric layer over the bottom electrode layer; forming a top electrode layer over the ferroelectric layer.Type: ApplicationFiled: April 4, 2022Publication date: July 21, 2022Applicant: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.Inventors: Fu-Chen CHANG, Kuo-Chi TU, Tzu-Yu CHEN, Sheng-Hung SHIH
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Patent number: 11367658Abstract: An embodiment method includes providing a wafer including a first integrated circuit die, a second integrated circuit die, and a scribe line region between the first integrated circuit die and the second integrated circuit die. The method further includes forming a kerf in the scribe line region and after forming the kerf, using a mechanical sawing process to fully separate the first integrated circuit die from the second integrated circuit die. The kerf extends through a plurality of dielectric layers into a semiconductor substrate.Type: GrantFiled: July 20, 2020Date of Patent: June 21, 2022Assignee: Taiwan Semiconductor Manufacturing Company, Ltd.Inventors: Fu-Chen Chang, Cheng-Lin Huang, Wen-Ming Chen
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Publication number: 20220139959Abstract: In some embodiments, the present disclosure relates to a method of forming an integrated chip including forming a ferroelectric layer over a bottom electrode layer, forming a top electrode layer over the ferroelectric layer, performing a first removal process to remove peripheral portions of the bottom electrode layer, the ferroelectric layer, and the top electrode layer, and performing a second removal process using a second etch that is selective to the bottom electrode layer and the top electrode layer to remove portions of the bottom electrode layer and the top electrode layer, so that after the second removal process the ferroelectric layer has a surface that protrudes past a surface of the bottom electrode layer and the top electrode layer.Type: ApplicationFiled: January 12, 2022Publication date: May 5, 2022Inventors: Chih-Hsiang Chang, Kuo-Chi Tu, Sheng-Hung Shih, Wen-Ting Chu, Tzu-Yu Chen, Fu-Chen Chang
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Patent number: 11296099Abstract: In an embodiment, a structure includes one or more first transistors in a first region of a device, the one or more first transistors supporting a memory access function of the device. The structure includes one or more ferroelectric random access memory (FeRAM) capacitors in a first inter-metal dielectric (IMD) layer over the one or more first transistors in the first region. The structure also includes one or more metal-ferroelectric insulator-metal (MFM) decoupling capacitors in the first IMD layer in a second region of the device. The MFM capacitors may include two or more capacitors coupled in series to act as a voltage divider.Type: GrantFiled: February 3, 2020Date of Patent: April 5, 2022Assignee: Taiwan Semiconductor Manufacturing Company, Ltd.Inventors: Tzu-Yu Chen, Kuo-Chi Tu, Fu-Chen Chang, Chih-Hsiang Chang, Sheng-Hung Shih
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Patent number: 11296116Abstract: A semiconductor device includes an inter-metal dielectric layer, a first conductive line, and a first ferroelectric random access memory (FRAM) structure. The first conductive line is embedded in the inter-metal dielectric layer and extends along a first direction. The first FRAM structure is over inter-metal dielectric layer and includes a bottom electrode layer, a ferroelectric layer, and a top electrode layer. The bottom electrode layer is over the first conductive line and has an U-shaped when viewed in a cross section taken along a second direction substantially perpendicular to the first direction. The ferroelectric layer is conformally formed on the bottom electrode. The top electrode layer is over the ferroelectric layer.Type: GrantFiled: December 26, 2019Date of Patent: April 5, 2022Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.Inventors: Fu-Chen Chang, Kuo-Chi Tu, Tzu-Yu Chen, Sheng-Hung Shih
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Publication number: 20220085288Abstract: An integrated circuit device has an RRAM cell that includes a top electrode, an RRAM dielectric layer, and a bottom electrode having a surface that interfaces with the RRAM dielectric layer. Oxides of the bottom electrode are substantially absent from the bottom electrode surface. The bottom electrode has a higher density in a zone adjacent the surface as compared to a bulk region of the bottom electrode. The surface has a roughness Ra of 2 nm or less. A process for forming the surface includes chemical mechanical polishing followed by hydrofluoric acid etching followed by argon ion bombardment. An array of RRAM cells formed by this process is superior in terms of narrow distribution and high separation between low and high resistance states.Type: ApplicationFiled: November 23, 2021Publication date: March 17, 2022Inventors: Fu-Chen Chang, Kuo-Chi Tu, Wen-Ting Chu
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Publication number: 20220077165Abstract: The present disclosure, in some embodiments, relates to an integrated chip. The integrated chip includes a bottom electrode disposed over a substrate. A data storage structure is disposed on the bottom electrode and is configured to store a data state. A top electrode is disposed on the data storage structure. The top electrode has interior surfaces defining a recess within an upper surface of the top electrode. A masking layer contacts a bottom of the recess and extends to over the upper surface of the top electrode. An interconnect extends through the masking layer and to the top electrode. The interconnect is directly over the upper surface of the top electrode.Type: ApplicationFiled: November 17, 2021Publication date: March 10, 2022Inventors: Tzu-Yu Chen, Kuo-Chi Tu, Sheng-Hung Shih, Wen-Ting Chu, Chih-Hsiang Chang, Fu-Chen Chang
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Publication number: 20220059550Abstract: The present disclosure, in some embodiments, relates to an integrated chip. The integrated chip includes a lower insulating structure disposed over a lower dielectric structure surrounding an interconnect. The lower insulating structure has sidewalls extending through the lower insulating structure. A bottom electrode is arranged along the sidewalls and an upper surface of the lower insulating structure, a data storage structure is disposed on first interior sidewalls and an upper surface of the bottom electrode, and a top electrode is disposed on second interior sidewalls and an upper surface of the data storage structure. An interconnect via is on an upper surface of the top electrode. A bottom surface of the bottom electrode is laterally outside of a bottom surface of the interconnect via.Type: ApplicationFiled: November 5, 2021Publication date: February 24, 2022Inventors: Fu-Chen Chang, Tzu-Yu Chen, Sheng-Hung Shih, Kuo-Chi Tu
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Patent number: 11227872Abstract: In some embodiments, the present disclosure relates to an integrated chip including one or more lower interconnect layers arranged within one or more stacked inter-layer dielectric layers over a substrate. A bottom electrode is disposed over the one or more interconnect layers, and a top electrode is disposed over the bottom electrode. A ferroelectric layer is disposed between and contacts a first surface of the bottom electrode and a second surface of the top electrode. The ferroelectric layer includes a protrusion that extends past outer surfaces of the top electrode and the bottom electrode along a first direction that is perpendicular to a second direction that is normal to the first surface. The protrusion is confined between lines that extend along the first and second surface.Type: GrantFiled: April 25, 2019Date of Patent: January 18, 2022Assignee: Taiwan Semiconductor Manufacturing Company, Ltd.Inventors: Chih-Hsiang Chang, Kuo-Chi Tu, Sheng-Hung Shih, Wen-Ting Chu, Tzu-Yu Chen, Fu-Chen Chang