The Infona portal uses cookies, i.e. strings of text saved by a browser on the user's device. The portal can access those files and use them to remember the user's data, such as their chosen settings (screen view, interface language, etc.), or their login data. By using the Infona portal the user accepts automatic saving and using this information for portal operation purposes. More information on the subject can be found in the Privacy Policy and Terms of Service. By closing this window the user confirms that they have read the information on cookie usage, and they accept the privacy policy and the way cookies are used by the portal. You can change the cookie settings in your browser.
In this paper, we propose a novel unipolar CMOS device with embedded oxide. Good inverter and logic gate output waveforms and behaviors are obtained. Utilizing the punch through effect, the Non-Classical Unipolar CMOS is demonstrated to enhance the tPLH so that the average delay time can be improved 23% when compared with the conventional CMOS. Due to all NMOS structures are only exploited and the...
In this paper, for the first time, we demonstrate the radio frequency (RF) performance of a junctionless vertical MOSFET (JLVMOS). According to the numerical simulation results, the JLVMOS can obtain higher gm, lower gd, in comparison to a junctionless planar SOI MOSFET. This because the vertical double-gate (DG) scheme truly helps to increase the gate controllability over the channel region, resulting...
We present a non-traditional CMOS inverter composed a junctionless (JL) NMOSFET and an N+-N--P transistor which with simple process and high integration density in this paper. In the non-traditional CMOS inverter the JL NMOSFET serves as driver and the N+-N--P transistor serves as load, respectively. Based on the measurement date of the N+-N--P transistor published, we draw the load line of the non-traditional...
This paper presents a complementary Lubistor and TFET (CLTFET) inverter, which is composed of a lateral unidirectional bipolar-type insulated-gate transistor (Lubistor) load and a tunneling field effect transistor (TFET) driver. Based on the measurement data of Lubistor and TFET devices published, we have for the first time drawn the load lines and operation point line (Q line) of the new designed...
In this study, we propose a new technology to fabricate pseudo tri-gate vertical (PTGV) MOSFETs without p-n junctions, named junctionless PTGVMOS (JPTGV). According to numerical analysis, the excellent electrical characteristics such as subthreshold swing (S.S.) ~ 60mV/dec, Ion/Ioff ~ 1010, and low interface trap density are all achieved. The device without p-n junctions provides an easier way for...
This work presents a preliminary performance comparison between the new and conventional block oxide (BO) bulk-MOSFETs that suggests the proposed BO structure as a candidate for scaling planar CMOS to 16 nm generation and beyond. Also, the combined application of the isolation-last process (ILP) and the BO process provides a method of forming a new BO (NBO) structure that diminishes the short-channel...
In this paper, we propose a simple trench-oxide thin-film transistor (TO TFT) process for 1T-DRAM applications. Our proposed TO TFT structure has several novel features as follows: 1. The buried oxide and the isolation oxide are carried out simultaneously in order to achieve a goal of simple process. 2. The trench design is used to improve both the sensing current windows (~ 84%) and the retention...
In this study, junctionless technology employed for fabricating pseudo tri-gate vertical (PTGV) MOSFETs is proposed and the RF/analog performance is also investigated and demonstrated. According to simulation results, the excellent performances such as high transconductance (gm), high cut-off frequency (fτ), and high transconductance generation factor (gm/Id) arc achieved. The numerical results also...
A new planar-type body-connected FinFET structure produced by the isolation-last self-align process is demonstrated and characterized by using three-dimensional (3-D) numerical simulations. The new process step first defines the gate region and then the active region, thus it can achieve fully self-alignment undoubtedly. Besides, due to the isolation-last process (ILP), an additional body region (ABR)...
This paper proposes a novel vertical MOSFET with the middle partial insulation and block oxide (bMPI) structure for 1T-DRAM application. The bMPI 1T-DRAM can increase the pseudo-neutral region due to the bMPI under the vertical channel and its device sensing current window is improved about 95% when compared to the planer bMPI 1T-DRAM. Because of the double gate structure, the proposed device has...
A new STI-type FinFET structure with its body region been connected is demonstrated and characterized by using three-dimensional (3-D) numerical simulations. From the simulation results, the STI-type FinFET shows that the short-channel effects (SCEs) and the off-state leakage current are proved to be reduced because the threshold voltage (VTH) roll-off and the drain-induced barrier lowering (DIBL)...
In this paper, we propose a simple trench-oxide thin-film transistor (TO TFT) process for 1T-DRAM applications. Our proposed TO TFT structure has several novel features as follows: 1. The buried oxide and the isolation oxide are carried out simultaneously in order to achieve a goal of simple process. 2. The trench design is used to improve both the sensing current windows (~72%) and the retention...
In this study, we propose a novel bulkSi-based device called dual-channel body-tied (DCBT) MOSFET using the self-aligned process without any extra masks. It reveals that our proposed DCBT FET has excellent S.S., decreased Isd,leak, lower Rsd, reduced Jg,limit, smaller lattice temperature, and higher thermal stability when compared with its DC counterpart. And, for the first time, we will investigate...
This paper for the first time presents a performance comparison between junction and junctionless thin-film transistors (TFTs) by using TCAD simulations. Note that the DIBL and S.S. of a junctionless TFT (JLTFT) are larger and higher, respectively, than those of its junction TFT (JTFT) counterpart. Although the JLTFT gets a higher current drive based on the same Vov as compared with the JTFT, its...
In this paper, we propose a junctionless vertical MOSFET (JLVMOS) based on bulk-Si wafer. According to the numerical simulations, the proposed JLVMOS can get a steep subthreshold swing (S. Swing), reduced DIBL, and higher ION/IOFF ratio, in comparison to a junctionless planar SOI MOSFET. This is because the vertical double-gate (DG) structure truly helps reduce the short-channel effects (SCEs). More...
This study presents a new vertical MOSFET with recessed gate (RG). Based on the TCAD simulation results, our proposed VMOS structure can gain reduced parasitic capacitance (compared to the conventional VMOS, both Cgd and Cgs can be reduced about 12% and 38.78%, respectively at VDs =1.0 V), improved drain saturation current, and free kink characteristics, in comparison to a conventional VMOS structure...
This study presents a new buried-gate vertical MOSFET (BGVMOS) with suppressed overlap capacitance and improved electrical characteristics due to its modified gate structure. According to the TCAD simulations, our proposed BGVMOS structure can gain reduced parasitic capacitances (27.11% Cgd and 37.53% Cgs at VDs = 1.0 V), improved drain saturation current, and free kink effect, in comparison to a...
In this paper, a novel non-classical CMOS inverter with simple process and high integration density is proposed, which is composed of a junctionless NMOSFET and a gated N--N-N+ transistor for driver and load, respectively. Also, the gated N--N-N+ transistor performance is also investigated. Based on the numerical simulations, we find out that the carrier mobility of the gated N--N-N+ transistor is...
We present a novel bulk-Si dual-channel source/drain-tied (DCSDT) MOSFET with the multiple epitaxial growth of SiGe/Si layers, and selective SiGe removal to form the block oxide island (BOI). Based on the simulations, the SDT scheme achieves better DC characteristics than body-tied (BT) scheme such as: Ion (20% increased), Ioff (71% reduced), Rsd (5.3% decreased), S.S. (19% improved), DIBL (35% reduced),...
We present a reliability analysis of a new vertical MOSFET with the middle partial insulation and block oxide (bMPI) structure for 1T-DRAM applications. The proposed 1T-DRAM device can increase the pseudo-neutral region due to the bMPI under the vertical channel and its device sensing current window is improved by about 95% when compared to the planer bMPI 1T-DRAM. Owing to the double-gate structure,...
Set the date range to filter the displayed results. You can set a starting date, ending date or both. You can enter the dates manually or choose them from the calendar.