Patent application number | Description | Published |
20120139044 | MOSFET AND METHOD FOR MANUFACTURING THE SAME - The present application discloses a MOSFET and a method for manufacturing the same. The MOSFET comprises an SOI wafer, which comprises a bottom semiconductor substrate, a first buried insulating layer on the bottom semiconductor substrate, and a first semiconductor layer on the first buried insulating layer; a source region and a drain region which are formed in a second semiconductor layer over the SOI wafer, wherein there is a second buried insulating layer between the second semiconductor layer and the SOI wafer; a channel region, which is formed in the second semiconductor layer and located between the source region and the drain regions; and a gate stack, which comprises a gate dielectric layer on the second semiconductor layer and a gate conductor on the gate dielectric layer, wherein the MOSFET further comprises a backgate formed in a portion of the first semiconductor substrate below the channel region, the backgate having a non-uniform doping profile, and the second buried insulating layer serving as a gate dielectric layer of the backgate. The MOSFET has an adjustable threshold voltage by changing the polarity of dopants and/or the doping profile in the backgate. Leakage in the semiconductor device can be reduced. | 06-07-2012 |
20120139048 | MOSFET AND METHOD FOR MANUFACTURING THE SAME - The present application discloses a MOSFET and a method for manufacturing the same. The MOSFET comprises an SOI chip comprising a semiconductor substrate, a buried insulating layer on the semiconductor substrate, and a semiconductor layer on the buried insulating layer; source/drain regions formed in the semiconductor layer; a channel region formed in the semiconductor layer and located between the source/drain regions; and a gate stack comprising a gate dielectric layer on the semiconductor layer, and a gate conductor on the gate dielectric layer, wherein the MOSFET further comprises a backgate formed in a portion of the semiconductor substrate below the channel region, and the backgate has a non-uniform doping profile, and wherein the buried insulating layer serves as a gate dielectric layer of the backgate. The MOSFET has an adjustable threshold voltage by changing the type of dopant and/or the doping profile in the backgate, and reduces a leakage current of the semiconductor device. | 06-07-2012 |
20120326231 | MOSFET AND METHOD FOR MANUFACTURING THE SAME - The present application discloses a MOSFET and a method for manufacturing the same, wherein the MOSFET comprises: an SOI wafer, which comprises a semiconductor substrate, a buried insulator layer, and a semiconductor layer, the buried insulator layer being disposed on the semiconductor substrate, and the semiconductor layer being disposed on the buried insulator layer; a gate stack, which is disposed on the semiconductor layer; a source region and a drain region, which are disposed in the semiconductor layer and on opposite sides of the gate stack; and a channel region, which are disposed in the semiconductor layer and sandwiched by the source region and the drain region, wherein the MOSFET further comprises a back gate disposed in the semiconductor substrate, and wherein the back gate comprises first, second and third compensation doping regions, the first compensation doping region is disposed under the source region and the drain region; the second compensation doping region extends in a direction away from the channel region and adjoining the first compensation doping region; and the third compensation doping region is disposed under the channel region and adjoining the first compensation doping region. By changing the doping type of the back gate, the MOSFET can have an adjustable threshold voltage, and can have a reduced parasitic capacitance and a reduced contact resistance in connection with the back gate. | 12-27-2012 |
20130001665 | MOSFET AND METHOD FOR MANUFACTURING THE SAME - The present disclosure discloses a MOSFET and a method for manufacturing the same, wherein the MOSFET comprises: an SOI wafer comprising a semiconductor substrate, a buried insulating layer, and a semiconductor layer, the buried insulating layer being disposed on the semiconductor substrate, and the semiconductor layer being disposed on the buried insulating layer; a gate stack disposed on the semiconductor layer; a source region and a drain region embedded in the semiconductor layer and disposed on both sides of the gate stack; and a channel region embedded in the semiconductor layer and sandwiched between the source region and the drain region, wherein the MOSFET further comprises a back gate and a counter doped region, and wherein the back gate is embedded in the semiconductor substrate, the counter doped region is disposed under the channel region and embedded in the back gate, and the back gate has a doping type opposite to that of the counter doped region. The MOSFET can adjust a threshold voltage by changing the doping type of the back gate. | 01-03-2013 |
20130099315 | MOSFET AND METHOD FOR MANUFACTURING THE SAME - The present disclosure discloses a MOSFET and a method for manufacturing the same, wherein the MOSFET comprises: an SOI wafer which comprises a semiconductor substrate, a buried insulating layer, and a semiconductor layer, the buried insulating layer being on the semiconductor substrate, and the semiconductor layer being on the buried insulating layer; a gate stack on the semiconductor layer; a source region and a drain region, which are in the semiconductor layer and on opposite sides of the gate stack; and a channel region, which is in the semiconductor layer and sandwiched by the source region and the drain region, wherein the MOSFET further comprises a back gate, the back gate being located in the semiconductor substrate and having a first doped region in a lower portion of the back gate and a second doped region in an upper portion of the back gate. The MOSFET can adjust the threshold voltage by changing the doping type and doping concentration of the anti-doped region. | 04-25-2013 |
20150200275 | FINFET AND METHOD FOR MANUFACTURING THE SAME - A FinFET with reduced leakage between source and drain regions, and a method for manufacturing the FinFET are disclosed. In one aspect, the method includes forming, on a semiconductor substrate, at least two openings to define a semiconductor fin. The method also includes forming a gate dielectric layer that conformally covers the fin and the openings. The method also includes forming, within the openings, a first gate conductor adjacent to the bottom of the fin. The method also includes forming, within the openings, an insulating isolation layer on the first gate conductor. The method also includes forming a second gate conductor on the fin and on the insulating isolation layer adjacent to the top of the fin. The method also includes forming spacers on sidewalls of the second gate conductor. The method also includes forming a source region and a drain region in the fin. | 07-16-2015 |
20150221769 | FINFET AND METHOD FOR MANUFACTURING THE SAME - An FinFET and a method for manufacturing the same are disclosed. The FinFET comprises: a semiconductor substrate; a stress layer on the semiconductor substrate; a semiconductor fin on the stress layer, the semiconductor fin having two sidewalls extending in its length direction; a gate dielectric on the sidewalls of the semiconductor fin; a gate conductor on the gate dielectric; and a source region and a drain region at two ends of the semiconductor fin, wherein the stress layer extends below and in parallel with the semiconductor fin, and applies stress to the semiconductor fin in the length direction of the semiconductor fin. | 08-06-2015 |