Patents by Inventor Di-Son Kuo
Di-Son Kuo 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: 7417278Abstract: A split-gate flash memory cell having a three-dimensional source capable of three-dimensional coupling with the floating gate of the cell, as well as a method of forming the same are provided. This is accomplished by first forming an isolation trench, lining it with a conformal oxide, then filling with an isolation oxide and then etching the latter to form a three-dimensional coupling region in the upper portion of the trench. A floating gate is next formed by first filling the three-dimensional region of the trench with polysilicon and etching it. The control gate is formed over the floating gate with an intervening inter-poly oxide. The floating gate forms legs extending into the three-dimensional coupling region of the trench thereby providing a three-dimensional coupling with the source which also assumes a three-dimensional region. The leg or the side-wall of the floating gate forming the third dimension provides the extra area through which coupling between the source and the floating gate is increased.Type: GrantFiled: May 5, 2005Date of Patent: August 26, 2008Assignee: Taiwan Semiconductor Manufacturing Co., Ltd.Inventors: Chia-Ta Hsieh, Yai-Fen Lin, Di-Son Kuo, Hung-Cheng Sung, Jack Yeh
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Patent number: 7001809Abstract: A split-gate flash memory cell having a three-dimensional source capable of three-dimensional coupling with the floating gate of the cell, as well as a method of forming the same are provided. This is accomplished by first forming an isolation trench, lining it with a conformal oxide, then filling with an isolation oxide and then etching the latter to form a three-dimensional coupling region in the upper portion of the trench. A floating gate is next formed by first filling the three-dimensional region of the trench with polysilicon and etching it. The control gate is formed over the floating gate with an intervening inter-poly oxide. The floating gate forms legs extending into the three-dimensional coupling region of the trench thereby providing a three-dimensional coupling with the source which also assumes a three-dimensional region. The leg or the side-wall of the floating gate forming the third dimension provides the extra area through which coupling between the source and the floating gate is increased.Type: GrantFiled: April 9, 2002Date of Patent: February 21, 2006Assignee: Taiwan Semiconductor Manufacturing Co., Ltd.Inventors: Chia-Ta Hsieh, Yai-Fen Lin, Di-Son Kuo, Hung-Cheng Sung, Jack Yeh
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Publication number: 20050207264Abstract: A split-gate flash memory cell having a three-dimensional source capable of three-dimensional coupling with the floating gate of the cell, as well as a method of forming the same are provided. This is accomplished by first forming an isolation trench, lining it with a conformal oxide, then filling with an isolation oxide and then etching the latter to form a three-dimensional coupling region in the upper portion of the trench. A floating gate is next formed by first filling the three-dimensional region of the trench with polysilicon and etching it. The control gate is formed over the floating gate with an intervening inter-poly oxide. The floating gate forms legs extending into the three-dimensional coupling region of the trench thereby providing a three-dimensional coupling with the source which also assumes a three-dimensional region. The leg or the side-wall of the floating gate forming the third dimension provides the extra area through which coupling between the source and the floating gate is increased.Type: ApplicationFiled: May 5, 2005Publication date: September 22, 2005Inventors: Chia-Ta Hsieh, Yai-Fen Lin, Di-Son Kuo, Hung-Cheng Sung, Jack Yeh
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Publication number: 20050045939Abstract: Flash memory cells have a split-gate structure in which the channel region underlies a floating gate of minimum lithography dimension, as well as one or more portions of the control gate that extend along one or more sidewalls of the floating gate. The length of the channel underlying the control gate sidewall portions is independent of the thickness of the floating gate sidewall portions and is smaller than and independent of the minimum lithography dimension. Preferably, the control gate is part of a continuous word line extending over a row of many substantially identical memory cells. Channel length need be no longer that the minimum lithography dimension (the channel portion underlying the floating gate) plus a sufficient additional length to account for the thickness of the inter-poly dielectric on the control gate sidewall or sidewalls, and for sufficient direct control of the channel by the control gate.Type: ApplicationFiled: August 27, 2003Publication date: March 3, 2005Inventors: Eungjoon Park, Di-Son Kuo
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Patent number: 6803625Abstract: A split-gate flash memory cell having improved programming and erasing speed with a tilted trench source, and also a method of forming the same are provided. This is accomplished by forming two floating gates and their respective control gates sharing a common source region. A trench is formed in the source region and the walls are sloped to have a tilt. A source implant is performed at a tilt angle and the trench is lined with a gate oxide layer. Subsequently, a lateral diffusion of the source implant is performed followed by thermal cycling. The lateral enlargement of the diffused source is found to increase the coupling ratio of the split-gate flash memory cell substantially.Type: GrantFiled: July 25, 2003Date of Patent: October 12, 2004Assignee: Taiwan Semiconductor Manufacturing CompanyInventors: Chia-Ta Hsieh, Di Son Kuo, Chrong-Jun Lin, Wen-Ting Chu
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Patent number: 6724036Abstract: A stacked-gate flash memory cell having a shallow trench isolation with a high-step of oxide and high lateral coupling is described. An unconventionally high isolation oxide layer is formed in a shallow trench isolation (STI) in a substrate. The deep opening in the space between the STIs is conformally lined with a polysilicon to form a floating gate extending above the opening. A conformal intergate oxide lines the entire floating gate. A layer of polysilicon overlays the intergate oxide and protrudes downward into the openings to form a control gate with increased coupling to the floating gate.Type: GrantFiled: September 5, 2000Date of Patent: April 20, 2004Assignee: Taiwan Semiconductor Manufacturing CompanyInventors: Chia-Ta Hsieh, Di-Son Kuo, Yai-Fen Lin, Chrong Jung Lin, Jong Chen, Hung-Der Su
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Publication number: 20040018687Abstract: A split-gate flash memory cell having improved programming and erasing speed with a tilted trench source, and also a method of forming the same are provided. This is accomplished by forming two floating gates and their respective control gates sharing a common source region. A trench is formed in the source region and the walls are sloped to have a tilt. A source implant is performed at a tilt angle and the trench is lined with a gate oxide layer. Subsequently, a lateral diffusion of the source implant is performed followed by thermal cycling. The lateral enlargement of the diffused source is found to increase the coupling ratio of the split-gate flash memory cell substantially.Type: ApplicationFiled: July 25, 2003Publication date: January 29, 2004Applicant: TAIWAN SEMICONDUCTOR MANUFACTURING COMPANYInventors: Chia-Ta Hsieh, Di Son Kuo, Chrong-Jun Lin, Wen-Ting Chu
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Patent number: 6674118Abstract: A PIP (Poly-Interpoly-Poly) capacitor with high capacitance is provided in a split-gate flash memory cell. A method is also disclosed to form the same PIP capacitor where the bottom and top plates of the capacitor are formed simultaneously with the floating gate and control gate, respectively, of the split-gate flash memory cell. Furthermore, the thin interpoly oxide of the cell, rather than the thick poly-oxide over the floating gate is used as the insulator between the plates of the capacitor. The resulting capacitor yields high storage capacity through high capacitance per unit area.Type: GrantFiled: June 8, 2001Date of Patent: January 6, 2004Assignee: Taiwan Semiconductor Manufacturing CompanyInventors: Chung-Ker Yeh, Hung-Cheng Sung, Di-Son Kuo, Chia-Ta Hsieh, Yai-Fen Lin
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Patent number: 6667509Abstract: A method is provided for forming a short and sharp gate bird's beak in order to increase the erase speed of a split-gate flash memory. This is accomplished in two embodiments where in the first, fluorine is implanted in the first polysilicon layer to form the floating gate. It is disclosed here that the implanting of fluorine increases the oxidation rate of the polysilicon and because of the faster oxidation, the polygate bird's beak that is formed attains a relatively short and sharp in comparison with conventional beaks. This has the attendant benefit of forming a relatively small memory cell, and the concomitant reduction in the erase speed of the cell. In the second embodiment, oxygen is used with the same favorable results. A third embodiment discloses the structure of a split-gate flash memory cell having a sharp bird's beak.Type: GrantFiled: June 9, 2000Date of Patent: December 23, 2003Assignee: Taiwan Semiconductor Manufacturing CompanyInventors: Chia-Ta Hsieh, Yai-Fen Lin, Hong-Cheng Sung, Di-Son Kuo
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Patent number: 6635922Abstract: A method is provided to form a sharp poly tip to improve the speed of a split-gate flash memory. The sharp poly tip is provided in place of the conventional gate bird's beak (GBB) because the latter requires the forming of thick poly-oxide which is more and more difficult in the miniaturized circuits of the ultra scale integrated technology. Furthermore, it is well known that GBB encroaches under the gate edge in a split-gate flash and degrades the programmability of submicron memory cells. The sharp poly tip of the invention is provided by forming a tapered floating gate through a high pressure etch such that the tip of the upper edge of the floating gate under the poly oxide is sharper and more robust, and, therefore, less susceptible to damage during the manufacture of the cell. The invention is also directed to a semiconductor device fabricated by the disclosed method.Type: GrantFiled: September 5, 2000Date of Patent: October 21, 2003Assignee: Taiwan Semiconductor Manufacturing CompanyInventors: Chia-Ta Hsieh, Yai-Fen Lin, Hung-Cheng Sung, Jack Yeh, Di-Son Kuo
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Patent number: 6624025Abstract: A split-gate flash memory cell having improved programming and erasing speed with a tilted trench source, and also a method of forming the same are provided. This is accomplished by forming two floating gates and their respective control gates sharing a common source region. A trench is formed in the source region and the walls are sloped to have a tilt. A source implant is performed at a tilt angle and the trench is lined with a gate oxide layer. Subsequently, a lateral diffusion of the source implant is performed followed by thermal cycling. The lateral enlargement of the diffused source is found to increase the coupling ratio of the split-gate flash memory cell substantially.Type: GrantFiled: August 27, 2001Date of Patent: September 23, 2003Assignee: Taiwan Semiconductor Manufacturing CompanyInventors: Chia-Ta Hsieh, Di Son Kuo, Chrong-Jun Lin, Wen-Ting Chu
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Patent number: 6583466Abstract: A vertical transistor memory device includes FET cells formed in rows and columns with the rows orthogonally arranged relative to the columns. Several cells in a single row have a common source region and adjacent cells have a common drain region FOX regions are formed between the rows. A set of trenches are formed with sidewalls and a bottom in a semiconductor substrate with threshold implant regions formed in the sidewalls. Doped drain regions are formed near the surface of the substrate and doped source regions are formed in the base of the device below the trenches with oppositely doped channel regions therebetween. A tunnel oxide layer is formed over the substrate including the trenches aside from FOX regions. Floating gates of doped polysilicon are formed over the tunnel oxide layer in the trenches. An interelectrode dielectric layer covers the floating gate layer. Control gate electrodes of doped polysilicon are formed over the interelectrode dielectric layer.Type: GrantFiled: April 8, 2002Date of Patent: June 24, 2003Assignee: Taiwan Semiconductor Manufacturing CompanyInventors: Chrong Jung Lin, Shui-Hung Chen, Di-Son Kuo
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Patent number: 6573555Abstract: A split gate P-channel flash memory cell and method of forming a split gate P-channel flash memory cell which avoids of high erasing voltage, reverse tunneling during programming, drain disturb and over erase problems, and permits shrinking the cell dimensions. The control gate has a concave top surface which intersects with the sidewalls to form a sharp edge. The cell is programmed by charging the floating gate with electrons by means of hot electron injection from the channel into the floating gate. The cell is erased by discharging the excess electrons from the floating gate into the control gate using Fowler-Nordheim tunneling. The sharp edge at the intersection of the concave top surface and the sidewalls of the floating gate produces a high electric field between the control gate and the floating gate to accomplish the Fowler-Nordheim tunneling with only moderate voltage differences between the floating gate and control gate.Type: GrantFiled: June 5, 2000Date of Patent: June 3, 2003Assignee: Taiwan Semiconductor Manufacturing CompanyInventors: Yai-Fen Lin, Di-Son Kuo, Hung-Cheng Sung, Chia-Ta Hsieh
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Patent number: 6559501Abstract: A method is disclosed for forming a split-gate flash memory cell having a salicidated control gate and self-aligned contacts. Salicidation is normally performed with single gate devices, such as logic devices. In a split-gate where the control gate overlays the floating gate with an intervening intergate oxide layer, it is conventionally incompatible to form self-aligned silicides over the control gate due to its position at a different level from that of the floating gate. Furthermore, oxide spacers that are normally used are inadequate when applied to memory cells. It is shown in the present invention that by a judicious use of an additional nitride/oxide layer over the control gate, oxide spacers can now be used effectively to delineate areas on the control gate that can be silicided and also self-aligned.Type: GrantFiled: May 7, 2001Date of Patent: May 6, 2003Assignee: Taiwan Semiconductor Manufacturing CompanyInventors: Hung-Cheng Sung, Di-Son Kuo, Chia-Ta Hsieh
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Publication number: 20030077868Abstract: A split-gate flash memory cell having improved programming and erasing speed with a tilted trench source, and also a method of forming the same are provided. This is accomplished by forming two floating gates and their respective control gates sharing a common source region. A trench is formed in the source region and the walls are sloped to have a tilt. A source implant is performed at a tilt angle and the trench is lined with a gate oxide layer. Subsequently, a lateral diffusion of the source implant is performed followed by thermal cycling. The lateral enlargement of the diffused source is found to increase the coupling ratio of the split-gate flash memory cell substantially.Type: ApplicationFiled: August 27, 2001Publication date: April 24, 2003Applicant: Taiwan Semiconductor Manufacturing CompanyInventors: Chia-Ta Hsieh, Di Son Kuo, Chrong-Jun Lin, Wen-Ting Chu
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Patent number: 6544828Abstract: A method for improving the endurance and robustness of high voltage NMOS devices by forming a conductive field plate at the edge of a shallow trench isolation region at the drain side only is described. Active areas are separated by isolation regions in a substrate. A gate oxide layer is grown on the active areas. A conducting layer is deposited overlying the gate oxide layer and patterned to form gate electrodes in the active areas and to form conductive strips overlapping both the active areas and the isolation areas at an isolation's edge on a drain side of the active areas wherein the conductive strips reduce the electric field at the isolation's edge in the fabrication of an integrated circuit device.Type: GrantFiled: November 7, 2001Date of Patent: April 8, 2003Assignee: Taiwan Semiconductor Manufacturing CompanyInventors: Wen-Ting Chu, Di-Son Kuo, Jack Yeh, Chia-Ta Hsieh, Chrong-Jung Lin, Sheng-Wei Tsaur
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Patent number: 6538277Abstract: A novel method of forming a first polysilicon gate tip (poly-tip) for enhanced F-N tunneling in split-gate flash memory cells is disclosed. The poly-tip is formed in the absence of using a thick polysilicon layer as the floating gate. This is made possible by forming an oxide layer over the poly-gate and oxidizing the sidewalls of the polygate. Because the starting thickness of polysilicon of the floating gate is relatively thin, the resulting gate beak, or poly-tip, is also necessarily thin and sharp. This method, therefore, circumvents the problem of oxide thinning encountered in scaling down devices of the ultra large scale integration technology and the fast programmability and erasure performance of EEPROMs is improved.Type: GrantFiled: August 2, 2001Date of Patent: March 25, 2003Assignee: Taiwan Semiconductor Manufacturing CompanyInventors: Hung-Cheng Sung, Di-Son Kuo, Chuang-Ke Yeh, Chia-Ta Hsieh, Yai-Fen Lin, Wen-Ting Chu
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Patent number: 6538276Abstract: A method of forming split gate electrode MOSFET devices comprises the following steps. Form a tunnel oxide layer over a semiconductor substrate. Form a floating gate electrode layer over the tunnel oxide layer. Form a masking cap over the floating gate electrode layer. Pattern a gate electrode stack formed by the tunnel oxide layer and the floating gate electrode layer in the pattern of the masking cap. Form intermetal dielectric and control gate layers over the substrate covering the stack and the source regions and the drain regions. Pattern the intermetal dielectric and control gate layers into adjacent mirror image split gate electrode pairs. Pattern a source line slot in the center of the gate electrode stack down to the substrate. Form source regions through the source line slot. Form drain regions self-aligned with the split gate electrodes and the gate electrode stack.Type: GrantFiled: January 8, 2001Date of Patent: March 25, 2003Assignee: Taiwan Semiconductor Manufacturing CompanyInventors: Chia-Ta Hsieh, Yai-Fen Liu, Hung-Cheng Sung, Di-Son Kuo
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Patent number: 6534821Abstract: A method is disclosed for forming a split-gate flash memory cell having a protruding source in place of the conventional flat source. The vertically protruding source structure has a top portion and a bottom portion. The bottom portion is polysilicon while the top portion is poly-oxide. The vertical wall of the protruding structure over the source is used to form vertical floating gate and spacer control gate with an intervening inter-gate oxide. Because the coupling between the source and the floating gate is now provided through the vertical wall, the coupling area is much larger than with conventional flat source. Furthermore, there is no longer the problem of voltage punch-through between the source and the drain. The vertical floating gate is also made thin so that the resulting thin and sharp poly-tip enhances further the erasing and programming speed of the flash memory cell.Type: GrantFiled: August 10, 2001Date of Patent: March 18, 2003Assignee: Taiwan Semiconductor Manufacturing CompanyInventors: Chia-Ta Hsieh, Yai-Fen Lin, Hung-Cheng Sung, Chuang-ke Yeh, Wen-Ting Chu, Di-Son Kuo
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Patent number: 6509603Abstract: A flash EEPROM or split gate flash EEPROM is made on a doped silicon semiconductor N-well formed in a doped semiconductor substrate. A channel with a given width is formed in the N-well which is covered with a tunnel oxide layer, and an N+ doped polysilicon floating gate electrode layer, which can be patterned into a split gate floating gate electrode having a narrower width than the channel width. An interelectrode dielectric layer is formed over the floating gate electrode and the exposed tunnel oxide. A control gate electrode includes a layer composed of P+ doped polysilicon over the interelectrode dielectric layer. The tunnel oxide layer, the floating gate electrode layer, the interelectrode dielectric layer, and the control gate electrode are patterned into a gate electrode stack above the channel. A source region and a drain region are formed in the surface of the substrate with a P type of dopant, the source region and the drain region being self-aligned with the gate electrode stack.Type: GrantFiled: March 27, 2001Date of Patent: January 21, 2003Assignee: Taiwan Semiconductor Manufacturing CompanyInventors: Yai-Fen Lin, Shiou-Hann Liaw, Di-Son Kuo, Juang-Ke Yeh