摘要:
An integrated circuit (IC) and a method of making the same. In one embodiment, the IC includes: a substrate; an insulation layer over the substrate; a resistor over the insulation layer; a thermal gate over the resistor; and a heat sink connected to the thermal gate via a substrate contact, the heat sink adapted to receive thermal energy from the resistor via the thermal gate.
摘要:
A method of forming a semiconductor structure includes forming a resistor on an insulator layer over a substrate, and forming at least one dielectric layer over the resistor. The method also includes forming a substrate contact through the at least one dielectric layer, through the resistor, through the insulator layer, and into the substrate. The substrate contact comprises a high thermal conductivity material.
摘要:
An integrated circuit (IC) and a method of making the same. In one embodiment, the IC includes: a substrate; an insulation layer over the substrate; a resistor over the insulation layer; a thermal gate over the resistor; and a heat sink connected to the thermal gate via a substrate contact, the heat sink adapted to receive thermal energy from the resistor via the thermal gate.
摘要:
A method of forming a semiconductor structure includes forming a resistor on an insulator layer over a substrate, and forming at least one dielectric layer over the resistor. The method also includes forming a substrate contact through the at least one dielectric layer, through the resistor, through the insulator layer, and into the substrate. The substrate contact comprises a high thermal conductivity material.
摘要:
A method of forming a semiconductor structure includes forming a resistor on an insulator layer over a substrate and forming a trench in the resistor and into the substrate. The method also includes forming a liner on sidewalls of the trench and forming a core comprising a high thermal conductivity material in the trench and on the liner.
摘要:
A method of forming a semiconductor structure includes: forming a resistor over a substrate; forming at least one first contact in contact with the resistor; and forming at least one second contact in contact with the resistor. The resistor is structured and arranged such that current flows from the at least one first contact to the at least one second contact through a central portion of the resistor. The resistor includes at least one extension extending laterally outward from the central portion in a direction parallel to the current flow. The method includes sizing the at least one extension based on a thermal diffusion length of the resistor.
摘要:
Disclosed herein are various methods and structures using contacts to create differential stresses on devices in an integrated circuit (IC) chip. An IC chip is disclosed having a p-type field effect transistor (PFET) and an n-type field effect transistor (NFET). One embodiment of this invention includes creating this differential stress by varying the deposition conditions for forming PFET and NFET contacts, for example, the temperature at which the fill materials are deposited, and the rate at which the fill materials are deposited. In another embodiment, the differential stress is created by filling the contacts with differing materials that will impart differential stress due to differing coefficient of thermal expansions. In another embodiment, the differential stress is created by including a silicide layer within the NFET contacts and/or the PFET contacts.
摘要:
Disclosed herein are various methods and structures using contacts to create differential stresses on devices in an integrated circuit (IC) chip. An IC chip is disclosed having a p-type field effect transistor (PFET) and an n-type field effect transistor (NFET). One embodiment of this invention includes creating this differential stress by varying the deposition conditions for forming PFET and NFET contacts, for example, the temperature at which the fill materials are deposited, and the rate at which the fill materials are deposited. In another embodiment, the differential stress is created by filling the contacts with differing materials that will impart differential stress due to differing coefficient of thermal expansions. In another embodiment, the differential stress is created by including a silicide layer within the NFET contacts and/or the PFET contacts.
摘要:
Device structure for active devices fabricated in a semiconductor-on-insulator (SOI) substrate and design structures for a radiofrequency integrated circuit. The device structure includes a first isolation region in the semiconductor layer that extends from a top surface of a semiconductor layer to a first depth, a second isolation region in the semiconductor layer that extends from the top surface of the semiconductor layer to a second depth greater than the first depth, and a first doped region in the semiconductor layer. The first doped region is disposed vertically between the first isolation region and an insulating layer disposed between the semiconductor layer and a handle wafer of the SOI substrate. The device structure may be included in a design structure embodied in a machine readable medium for designing, manufacturing, or testing an integrated circuit.
摘要:
Methods for fabricating a device structure in a semiconductor-on-insulator substrate. The method includes forming a first isolation region in the substrate device layer that extends from a top surface of the device layer to a first depth and forming a second isolation region in the semiconductor layer that extends from the top surface of the semiconductor layer to a second depth greater than the first depth. The method further includes forming a doped region of the device structure in the semiconductor layer that is located vertically between the first isolation region and the insulating layer.