摘要:
The preferred embodiment provides an integrated circuit capacitor that achieves a high capacitance by using an inversion layer in the substrate as the plate counter electrode for the capacitor. The inversion layer is created by forming a trench capacitor in a lightly doped substrate. With a sufficient workfunction difference between the storage node material and the isolation band the surface of the lightly doped substrate inverts, with the inversion charge being supplied by the isolation band. This inversion layer serves as the plate counter electrode for the capacitor.
摘要:
The preferred embodiment provides an integrated circuit capacitor that achieves a high capacitance by using an inversion layer in the substrate as the plate counter electrode for the capacitor. The inversion layer is created by forming a trench capacitor in a lightly doped substrate. With a sufficient workfunction difference between the storage node material and the isolation band the surface of the lightly doped substrate inverts, with the inversion charge being supplied by the isolation band. This inversion layer serves as the plate counter electrode for the capacitor.
摘要:
Methods of manufacturing trench-bounded buried-channel p-type metal oxide semiconductor field effect transistors (p-MOSFETs), as used in dynamic random access memory (DRAM) technologies, for significantly reducing the anomalous buried-channel p-MOSFET sensitivity to device width. In one embodiment, the method comprises the initiation of a low temperature annealing step using an inert gas after the deep phosphorous n-well implant step, and prior to the boron buried-channel implant and 850.degree. C. gate oxidation steps. Alternatively, the annealing step may be performed after the boron buried-channel implant and prior to the 850.degree. C. gate oxidation step. In another embodiment, a rapid thermal oxidation (RTO) step is substituted for the 850.degree. C. gate oxidation step, following the deep phosphorous n-well and boron buried-channel implant steps. Alternatively, an 850.degree. C. gate oxidation step may follow the RTO gate oxidation step.
摘要:
A three-dimensional memory is formed as an array of memory elements that are formed across multiple layers of planes positioned at different distances above a semiconductor substrate. The memory elements reversibly change a level of electrical conductance in response to a voltage difference being applied across them. The three-dimensional array includes a two-dimensional array of pillar lines acting as local vertical bit lines through the multiple layers of planes which together with arrays of word lines on each plane are used to access the memory elements. The three-dimensional memory is formed over a CMOS substrate with an intermediate pillar select layer. The pillar select layer is formed with a plurality of pillar select devices which are switching transistors formed outside the CMOS and serve to switch selected rows of pillar lines to corresponding metal lines on the substrate.
摘要:
A three dimensional memory device including a substrate and a semiconductor channel. At least one end portion of the semiconductor channel extends substantially perpendicular to a major surface of the substrate. The device also includes at least one charge storage region located adjacent to semiconductor channel and a plurality of control gate electrodes having a strip shape extending substantially parallel to the major surface of the substrate. The plurality of control gate electrodes include at least a first control gate electrode located in a first device level and a second control gate electrode located in a second device level located over the major surface of the substrate and below the first device level. The device also includes an etch stop layer located between the substrate and the plurality of control gate electrodes.
摘要:
Monolithic, three dimensional NAND strings include a semiconductor channel, at least one end portion of the semiconductor channel extending substantially perpendicular to a major surface of a substrate, a plurality of control gate electrodes having a strip shape extending substantially parallel to the major surface of the substrate, the blocking dielectric comprising a plurality of blocking dielectric segments, a plurality of discrete charge storage segments, and a tunnel dielectric located between each one of the plurality of the discrete charge storage segments and the semiconductor channel.
摘要:
Monolithic three dimensional NAND strings and methods of making. The method includes both front side and back side processing. Using the combination of front side and back side processing, a NAND string can be formed that includes an air gap between the floating gates in the NAND string. The NAND string may be formed with a single vertical channel. Alternatively, the NAND string may have a U shape with two vertical channels connected with a horizontal channel.
摘要:
Monolithic, three dimensional NAND strings include a semiconductor channel, at least one end portion of the semiconductor channel extending substantially perpendicular to a major surface of a substrate, a plurality of control gate electrodes having a strip shape extending substantially parallel to the major surface of the substrate, the blocking dielectric comprising a plurality of blocking dielectric segments, a plurality of discrete charge storage segments, and a tunnel dielectric located between each one of the plurality of the discrete charge storage segments and the semiconductor channel.
摘要:
A p-channel field-effect transistor is formed on a semiconductor substrate. The transistor has an n-doped gate electrode, a buried channel, a p-doped source and a p-doped drain. The transistor is fabricated by a procedure in which, after an implantation for defining an n-type well, an oxidation is performed to form a gate-oxide layer and n-doped polysilicon is subsequently deposited. The latter is doped with boron or boron fluoride particles either in situ or by a dedicated implantation step. In a thermal process, the boron acceptors penetrate through the oxide layer into the substrate of the n-type well, where they form a p-doped zone, which serves for counter doping and sets the threshold voltage. This results in a steep profile that permits a shallow buried channel. The control of the number particles penetrating through the oxide layer is achieved by nitriding the oxide layer in an N2O atmosphere.
摘要翻译:在半导体衬底上形成p沟道场效应晶体管。 晶体管具有n掺杂栅电极,掩埋沟道,p掺杂源和p掺杂漏极。 晶体管的制造方法是,在用于限定n型阱的注入之后,执行氧化以形成栅氧化层,随后沉积n掺杂多晶硅。 后者在原位或通过专用注入步骤掺杂硼或氟化硼颗粒。 在热处理中,硼受体穿过氧化物层进入n型阱的衬底,其中它们形成p掺杂区,用于反掺杂并设置阈值电压。 这导致一个陡峭的轮廓,允许一个浅埋的通道。 穿过氧化物层的数量颗粒的控制通过在N 2 O 2气氛中氮化氧化物层来实现。
摘要:
A method fabricates a semiconductor structure having a plurality of memory cells that are provided in a semiconductor substrate of a first conductivity type and contains a plurality of planar selection transistors and a corresponding plurality of storage capacitors connected thereto. The selection transistors have respective first and second active regions of a second conductivity type. The first active regions are connected to the storage capacitors and the second active regions are connected to respective bit lines, and respective gate stacks, which are provided above the semiconductor substrate in a manner insulated by a gate dielectric. In this case, a single-sided halo doping is effected, and an excessive outdiffusion of the halo doping zones is prevented by introduction of a diffusion-inhibiting species.