Patents by Inventor Michael Harley-Stead
Michael Harley-Stead 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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Publication number: 20100084686Abstract: An asymmetric heterodoped metal oxide (AH2MOS) semiconductor device includes a substrate and an insulated gate on the top of the substrate disposed between a source region and a drain region. On one side of the gate, heterodoped tub and source regions are formed. The tub region has dopants of a second polarity. A source region is disposed inside each tub region and has dopants of a first polarity opposite to the second polarity. On the other side of the gate, heterodoped buffer and drift regions are formed. The buffer regions comprise dopants of the second polarity. The drift regions are disposed inside the buffer regions and are doped with dopants of the first polarity. A drain n+ tap region is disposed in the drift region.Type: ApplicationFiled: December 8, 2009Publication date: April 8, 2010Inventors: Jun Cai, Michael Harley-Stead, Jim G. Holt
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Patent number: 7678656Abstract: An HV PMOS device formed on a substrate having an HV well of a first polarity type formed in an epitaxial layer of a second polarity type includes a pair of field oxide regions on the substrate and at least partially over the HV well. Insulated gates are formed on the substrate between the field oxide regions. Stacked hetero-doping rims are formed in the HV well and in self-alignment with outer edges of the gates. A buffer region of the first polarity type is formed in the HV well between and in self-alignment with inner edges of the gates. A drift region of the second polarity type is formed in the buffer region between and in self-alignment with inner edges of the gates. The drift region includes a region having a gradual dopant concentration change, and includes a drain region of the second polarity type.Type: GrantFiled: January 31, 2007Date of Patent: March 16, 2010Assignee: Fairchild Semiconductor CorporationInventors: Jun Cai, Michael Harley-Stead, Jim G. Holt
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Patent number: 7649225Abstract: An asymmetric heterodoped metal oxide (AH2MOS) semiconductor device includes a substrate and an insulated gate on the top of the substrate disposed between a source region and a drain region. On one side of the gate, heterodoped tub and source regions are formed. The tub region has dopants of a second polarity. A source region is disposed inside each tub region and has dopants of a first polarity opposite to the second polarity. On the other side of the gate, heterodoped buffer and drift regions are formed. The buffer regions comprise dopants of the second polarity. The drift regions are disposed inside the buffer regions and are doped with dopants of the first polarity. A drain n+ tap region is disposed in the drift region.Type: GrantFiled: October 23, 2006Date of Patent: January 19, 2010Assignee: Fairchild Semiconductor CorporationInventors: Jun Cai, Michael Harley-Stead, Jim G. Holt
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Publication number: 20070120184Abstract: An HV PMOS device formed on a substrate having an HV well of a first polarity type formed in an epitaxial layer of a second polarity type includes a pair of field oxide regions on the substrate and at least partially over the HV well. Insulated gates are formed on the substrate between the field oxide regions. Stacked hetero-doping rims are formed in the HV well and in self-alignment with outer edges of the gates. A buffer region of the first polarity type is formed in the HV well between and in self-alignment with inner edges of the gates. A drift region of the second polarity type is formed in the buffer region between and in self-alignment with inner edges of the gates. The drift region includes a region having a gradual dopant concentration change, and includes a drain region of the second polarity type.Type: ApplicationFiled: January 31, 2007Publication date: May 31, 2007Inventors: Jun Cai, Michael Harley-Stead, Jim Holt
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Publication number: 20070040212Abstract: An asymmetric heterodoped metal oxide (AH2MOS) semiconductor device includes a substrate and an insulated gate on the top of the substrate disposed between a source region and a drain region. On one side of the gate, heterodoped tub and source regions are formed. The tub region has dopants of a second polarity. A source region is disposed inside each tub region and has dopants of a first polarity opposite to the second polarity. On the other side of the gate, heterodoped buffer and drift regions are formed. The buffer regions comprise dopants of the second polarity. The drift regions are disposed inside the buffer regions and are doped with dopants of the first polarity. A drain n+ tap region is disposed in the drift region.Type: ApplicationFiled: October 23, 2006Publication date: February 22, 2007Inventors: Jun Cai, Michael Harley-Stead, Jim Holt
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Patent number: 7180132Abstract: An HV PMOS device formed on a substrate having an HV well of a first polarity type formed in an epitaxial layer of a second polarity type includes a pair of field oxide regions on the substrate and at least partially over the HV well. Insulated gates are formed on the substrate between the field oxide regions. Stacked hetero-doping rims are formed in the HV well and in self-alignment with outer edges of the gates. A buffer region of the first polarity type is formed in the HV well between and in self-alignment with inner edges of the gates. A drift region of the second polarity type is formed in the buffer region between and in self-alignment with inner edges of the gates. The drift region includes a region having a gradual dopant concentration change, and includes a drain region of the second polarity type.Type: GrantFiled: September 16, 2004Date of Patent: February 20, 2007Assignee: Fairchild Semiconductor CorporationInventors: Jun Cai, Michael Harley-Stead, Jim G. Holt
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Patent number: 7125777Abstract: An asymmetric hetero-doped metal oxide (AH2MOS) semiconductor device includes a substrate and an insulated gate on the top of the substrate disposed between a source region and a drain region. On one side of the gate, heterodoped tub and source regions are formed. The tub region has dopants of a second polarity. A source region is disposed inside each tub region and has dopants of a first polarity opposite to the second polarity. On the other side of the gate, heterodoped buffer and drift regions are formed. The buffer regions comprise dopants of the second polarity. The drift regions are disposed inside the buffer regions and are doped with dopants of the first polarity. A drain n+ tap region is disposed in the drift region.Type: GrantFiled: July 15, 2004Date of Patent: October 24, 2006Assignee: Fairchild Semiconductor CorporationInventors: Jun Cai, Michael Harley-Stead, Jim G. Holt
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Publication number: 20060057784Abstract: An HV PMOS device formed on a substrate having an HV well of a first polarity type formed in an epitaxial layer of a second polarity type includes a pair of field oxide regions on the substrate and at least partially over the HV well. Insulated gates are formed on the substrate between the field oxide regions. Stacked hetero-doping rims are formed in the HV well and in self-alignment with outer edges of the gates. A buffer region of the first polarity type is formed in the HV well between and in self-alignment with inner edges of the gates. A drift region of the second polarity type is formed in the buffer region between and in self-alignment with inner edges of the gates. The drift region includes a region having a gradual dopant concentration change, and includes a drain region of the second polarity type.Type: ApplicationFiled: September 16, 2004Publication date: March 16, 2006Inventors: Jun Cai, Michael Harley-Stead, Jim Holt
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Publication number: 20060011985Abstract: An asymmetric heterodoped metal oxide (AH2MOS) semiconductor device includes a substrate and an insulated gate on the top of the substrate disposed between a source region and a drain region. On one side of the gate, heterodoped tub and source regions are formed. The tub region has dopants of a second polarity. A source region is disposed inside each tub region and has dopants of a first polarity opposite to the second polarity. On the other side of the gate, heterodoped buffer and drift regions are formed. The buffer regions comprise dopants of the second polarity. The drift regions are disposed inside the buffer regions and are doped with dopants of the first polarity. A drain n+ tap region is disposed in the drift region.Type: ApplicationFiled: July 15, 2004Publication date: January 19, 2006Inventors: Jun Cai, Michael Harley-Stead, Jim Holt
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Patent number: 6927460Abstract: A structure of and a method for making an isolated NMOS transistor using standard BiCMOS processing steps and techniques. No additional masks and processing steps are needed for the isolated NMOS device relative to the standard process flow. A P-type substrate with an overlaying buried N-type layer overlaid with a buried p-type layer below a P-well is shown. An N-type region surrounds and isolates the P-well from other devices on the same wafer. N+ regions are formed in the p-well for the source and drain connections and poly or other such electrical conductors are formed on the gate, drain and source structures to make the NMOS device operational. Parasitic bipolar transistors are managed by the circuit design, current paths and biasing to ensure the parasitic bipolar transistors do not turn on.Type: GrantFiled: February 18, 2003Date of Patent: August 9, 2005Assignee: Fairchild Semiconductor CorporationInventors: Steven M. Leibiger, Ronald B. Hulfachor, Michael Harley-Stead, Daniel J. Hahn
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Patent number: 6770494Abstract: Chemical mechanical polishing (CMP) produces thickness variations over the surface of a chip or die that depends on many factors. The present invention provides for characterization of the thickness variations over the surface area, and accepting these variations in the detailed design of the components that are to be distributed over the entire surface of the die. Any device with parameters that depend on the layer thickness that is subject to CMP will have variations in those parameters depending upon where the device is located on the die. The present invention characterizes the thickness variations and modifies the physical design of other mechanical aspects of the device so as to compensate for the thickness variations. The result is devices that have acceptable parameters regardless of their location on the chip.Type: GrantFiled: January 15, 2003Date of Patent: August 3, 2004Assignee: Fairchild Semiconductor CorporationInventors: Jason Woloszyn, Michael Harley-Stead
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Patent number: 6646840Abstract: An ESD protection device including a compound transistor structure having a trigger transistor and an ESD protection transistor. The trigger transistor includes a breakdown potential between the standoff voltage of a circuit to be protected and the breakdown potential of the ESD protection transistor. When activated, the trigger transistor operates to turn on the ESD protection transistor that is designed to carry the bulk of the conduction current associated with an ESD event. The trigger transistor is designed with an internal gain mechanism to ensure that it will not be turned off when a modified snapback voltage is reached during the ESD protection transistor operation. The trigger transistor is a minor contributor to the conducting current with the ESD protection transistor after such time as protection circuit operation acts. A process for fabricating a suitable compound transistor structure is disclosed.Type: GrantFiled: August 3, 2000Date of Patent: November 11, 2003Assignee: Fairchild Semiconductor CorporationInventors: Alvin Sugerman, Raymond Roberts, Michael Harley-Stead
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Patent number: 6100125Abstract: An ESD protection device including a transistor structure with resistive regions located within active areas thereof. The transistor structure is formed of one or more MOS transistors, preferably N-type MOS transistors. The drain regions of the transistors are modified to reduce the conductivity of those resistive regions by preventing high carrier concentration implants in one or more sections of the drain regions. This is achieved by modifying an N LDD mask and the steps related thereto, as well as a silicide exclusion mask and the steps related thereto. The modifications result in the omission of N LDD dopant from the area immediately adjacent to the underlying channel. In addition, portions of a spacer oxide remain over the drain region to be formed. Subsequent implant and siliciding steps are effectively blocked by the spacer oxide that remains, leaving a low-density drain (LDD) charge carrier concentration in those regions, except where omitted.Type: GrantFiled: September 25, 1998Date of Patent: August 8, 2000Assignee: Fairchild Semiconductor Corp.Inventors: Ronald Brett Hulfachor, Steven Leibiger, Michael Harley-Stead, Daniel James Hahn