摘要:
A method of fabricating a semiconductor device having a non-volatile memory cell includes forming an insulation layer as an uppermost/outermost portion of the memory cell to enhance the charge retention capability of the memory cell. The insulation layer is formed after the gate structure and integrate dielectric of the non-volatile memory cell, and a gate of a logic transistor are formed. The insulation layer thus enhances the function of the intergate dielectric. Subsequently, a conductive layer is formed on the substrate including over the gate of the logic transistor. A silicide layer is then formed on the gate of the logic transistor and on the substrate adjacent opposite sides of the gate. The insulation layer thus also serves prevent the formation of a silicide layer on the non-volatile memory cell.
摘要:
Provided are a cell structure of an EPROM device and a method for fabricating the same. The cell structure includes a gate stack, which includes a first floating gate, an insulating pattern including a nitride layer, and a control gate that are sequentially stacked on a semiconductor substrate, and includes a window for exposing the top surface or both sidewalls of the first floating gate on both sides of the control gate, so that charges of the first floating gate can be erased by ultraviolet rays. The cell structure further includes a floating gate transistor, which includes a gate insulating layer formed on the semiconductor substrate, a second floating gate that is formed on the gate insulating layer and is connected to the first floating gate in the gate stack, and a source/drain that is formed in the semiconductor substrate so as to be aligned to the second floating gate. In the cell structure, the window is formed on the top surface or both sidewalls of the first floating gate of the gate stack. Thus, ultraviolet rays can penetrate through the window and easily erase charges of the programmed cell.
摘要:
Provided are a cell structure of an EPROM device and a method for fabricating the same. The cell structure includes a gate stack, which includes a first floating gate, an insulating pattern including a nitride layer, and a control gate that are sequentially stacked on a semiconductor substrate, and includes a window for exposing the top surface or both sidewalls of the first floating gate on both sides of the control gate, so that charges of the first floating gate can be erased by ultraviolet rays. The cell structure further includes a floating gate transistor, which includes a gate insulating layer formed on the semiconductor substrate, a second floating gate that is formed on the gate insulating layer and is connected to the first floating gate in the gate stack, and a source/drain that is formed in the semiconductor substrate so as to be aligned to the second floating gate. In the cell structure, the window is formed on the top surface or both sidewalls of the first floating gate of the gate stack. Thus, ultraviolet rays can penetrate through the window and easily erase charges of the programmed cell.
摘要:
A silicon-on-insulator (SOI) device and a method for manufacturing the same includes a substrate, which includes a base layer, a buried oxide layer, and a semiconductor layer, and an isolation layer which is formed in a trench that defines an active region on the semiconductor layer. The trench comprises a first region having a depth smaller than the thickness of the semiconductor layer and a second region having a depth as much as the thickness of the semiconductor layer. The isolation layer includes an oxide layer and a nitride liner that are sequentially formed along the surface of the trench and a dielectric layer that fills the trench.
摘要:
Provided are a cell structure of an EPROM device and a method for fabricating the same. The cell structure includes a gate stack, which includes a first floating gate, an insulating pattern including a nitride layer, and a control gate that are sequentially stacked on a semiconductor substrate, and includes a window for exposing the top surface or both sidewalls of the first floating gate on both sides of the control gate, so that charges of the first floating gate can be erased by ultraviolet rays. The cell structure further includes a floating gate transistor, which includes a gate insulating layer formed on the semiconductor substrate, a second floating gate that is formed on the gate insulating layer and is connected to the first floating gate in the gate stack, and a source/drain that is formed in the semiconductor substrate so as to be aligned to the second floating gate. In the cell structure, the window is formed on the top surface or both sidewalls of the first floating gate of the gate stack. Thus, ultraviolet rays can penetrate through the window and easily erase charges of the programmed cell.
摘要:
A transmitting device which transmits a plurality of streams is provided. The transmitting device comprises: a first multimedia data consisting of multimedia contents; a first synchronization information for synchronization of a second multimedia data consisting of multimedia contents; a first transmitting data including a first signaling data for the first multimedia data and a second signaling data for the second multimedia data, a data generating unit generating a second transmitting data including a second synchronization information for synchronization of the second multimedia data and the first multimedia data, a first transmitting unit transmitting the first transmitting data supplied from the data generating unit to a receiving device through a broadcasting network, and a second transmitting unit transmitting the second transmitting data supplied from the data generating unit to the receiving device through an IP network.
摘要:
Semiconductor device having an on-chip type electrostatic discharge (ESD) protection circuit and a method of manufacturing the same are provided. The on-chip type ESD protection circuit may include a first junction diode having a first conductive type region contacting a second conductive type region in a semiconductor substrate, and a first schottky diode having a metallic material layer arranged on and contacting the first conductive type region of the semiconductor substrate.
摘要:
A layout of a memory cell of a dual-port semiconductor memory device provides for one memory cell that includes a total of eight transistors, including two NMOS scan transistors. Among the transistors, two PMOS transistors and six NMOS transistors are disposed in one N-well area and one contiguous P-well area of a semiconductor substrate, respectively. The N-well area is disposed at a corner of the memory cell for improving efficiency of the layout. Since one N-well area and one P-well area are formed in the semiconductor substrate, the size of an isolated area between the N-well area and the P-well area can be reduced, thus also reducing the size of a memory cell.
摘要:
A transmitting device which transmits a plurality of streams is provided. The transmitting device comprises: a first multimedia data consisting of multimedia contents; a first synchronization information for synchronization of a second multimedia data consisting of multimedia contents; a first transmitting data including a first signaling data for the first multimedia data and a second signaling data for the second multimedia data, a data generating unit generating a second transmitting data including a second synchronization information for synchronization of the second multimedia data and the first multimedia data, a first transmitting unit transmitting the first transmitting data supplied from the data generating unit to a receiving device through a broadcasting network, and a second transmitting unit transmitting the second transmitting data supplied from the data generating unit to the receiving device through an IP network.
摘要:
Semiconductor device having an on-chip type electrostatic discharge (ESD) protection circuit and a method of manufacturing the same are provided. The on-chip type ESD protection circuit may include a first junction diode having a first conductive type region contacting a second conductive type region in a semiconductor substrate, and a first schottky diode having a metallic material layer arranged on and contacting the first conductive type region of the semiconductor substrate.