A novel hybrid gate p-GaN power high-electron mobility transistor (Hyb-HEMT) technology is proposed in this work to effectively enhance threshold voltage (Vth) stability without significant gate leakage current (Igss)...
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A novel hybrid gate p-GaN power high-electron mobility transistor (Hyb-HEMT) technology is proposed in this work to effectively enhance threshold voltage (Vth) stability without significant gate leakage current (Igss) degradation. In this device concept, gate structure consists of spaced ohmic-type p-GaN metal dots and Schottky-type p-GaN metal. Charge storage effect can be alleviated through a free-carrier “discharge path” induced by ohmic-type p-GaN region, thus enhancing the Vth stability. The surrounding geometry distribution of Schottky-type p-GaN metal can take full advantage of depletion region, ensuring a relatively low Igss. It is experimentally demonstrated that hybrid gate structure can successfully suppress Vth shift within only 0.03V under 1200s DC drain/gate bias stress and the activation energy (EA) of proposed Hyb-HEMT is only 0.59eV, which indicates Hyb-HEMT owns shallower traps, leading to easier discharge of the induced stored charges. Meanwhile, experimental results and the mix-mode simulation prove that no carrier injection or trapping effect occurs in p-GaN layer after repetitive reverse freewheeling stress for the Hyb-HEMT device. IEEE
Efficient cooling of high heat-flux electronic devices involving multi-physics field coupling has become a key challenge. To address these challenges, this paper establishes a multi-physics field coupling heat-transfe...
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This paper presents system design of an ultra-high speed continuous-time (CT) Sigma-Delta $(\Sigma\Delta)$ modulator in MATLAB/SIMULINK. With the help of Toolbox, zero-pole analysis and parameter optimization were c...
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ISBN:
(纸本)9781665482271
This paper presents system design of an ultra-high speed continuous-time (CT) Sigma-Delta $(\Sigma\Delta)$ modulator in MATLAB/SIMULINK. With the help of Toolbox, zero-pole analysis and parameter optimization were carried out for the modulator, followed by the behavior-level simulation of the ideal modulator system. Based on this, the non-ideal factors, including: gain-bandwidth (GBW), clock-jitter, RC-tolerance and excess-loop-delay, are modeled and simulated in the modulator system. The simulation results show that the modulator is suitable for a CT $\Sigma\Delta$ ADC with resolution of 7 -bit, sampling frequency of 10GS/s and signal bandwidth is larger than 300MHz, also lay a foundation for the subsequent circuit design.
In this work, vertical NiO/Ga2O3 heterojunction diodes (HJDs) have been demonstrated with the integrated SiNx/Al2O3 double-layered insulating field plate (FP) structure. With the optimal post annealing, the device per...
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In this work, vertical NiO/Ga2O3 heterojunction diodes (HJDs) have been demonstrated with the integrated SiNx/Al2O3 double-layered insulating field plate (FP) structure. With the optimal post annealing, the device performance has been improved with a decreased differential specific on-resistance (Ron,sp), a decreased reverse leakage current density and the elimination of double barrier behavior in forward bias condition, which is due to the reduced interface defects produced by the plasma damage of fabricated process. Our work provides an optimized way for the heterojunction devices based on Ga2O3 material to solve the difficulty of p-type Ga2O3.
In this paper, we investigate the influence of deep level defects on the electrical properties of Ni/4H-SiC Schottky diodes by analyzing device current-voltage(I-V) characteristics and deep-level transient spectra(DLT...
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In this paper, we investigate the influence of deep level defects on the electrical properties of Ni/4H-SiC Schottky diodes by analyzing device current-voltage(I-V) characteristics and deep-level transient spectra(DLTS). Two Schottky barrier heights(SBHs) with different temperature dependences are found in Ni/4 H-SiC Schottky diode above room temperature. DLTS measurements further reveal that two kinds of defects Z_(1/2) and Ti(c)~a are located near the interface between Ni and SiC with the energy levels of E_C-0.67 eV and E_C-0.16 eV respectively. The latter one as the ionized titanium acceptor residing at cubic Si lattice site is thought to be responsible for the low SBH in the localized region of the diode, and therefore inducing the high reverse leakage current of the diode. The experimental results indicate that the Ti(c)~a defect has a strong influence on the electrical and thermal properties of the 4 H-SiC Schottky diode.
In this paper, a passive double-balanced mixer operating at 14-22GHz is designed based on the $0.15_{5}\mathrm{m}$ pHEMT GaAs process provided by WIN Semiconductor. The RF/LO frequency of the mixer is 14GHz-22GHz, a...
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ISBN:
(纸本)9781665482271
In this paper, a passive double-balanced mixer operating at 14-22GHz is designed based on the $0.15_{5}\mathrm{m}$ pHEMT GaAs process provided by WIN Semiconductor. The RF/LO frequency of the mixer is 14GHz-22GHz, and the IF frequency range is DC-4GHz. The ring-shaped mixing ring is composed of four MOS transistors connected with drain and source, and the RF and LO ports are spiral Marchand balun. The simulation results show that when the LO power is 13dBm, the frequency conversion loss is about 10dB, the isolation of LO/RF port and LO/IF port are both greater than 30dB, and that of RF/IF port is greater than 20dB. Chip size is $1.5 \text{mm}\times 0.9\text{mm}$ .
Single photons and photon pairs are typically generated by spontaneous parametric down conversion or quantum dots;however,spontaneous four-wave mixing(SFWM)in silicon microring resonators[1]is also an appealing source...
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Single photons and photon pairs are typically generated by spontaneous parametric down conversion or quantum dots;however,spontaneous four-wave mixing(SFWM)in silicon microring resonators[1]is also an appealing source of entangled photons,offering a strong cavity-enhanced nonlinear interactions while maintaining features,such as compact,simple to fabricate,and allowing for thermal ***,silicon ring-resonators usually suffer from a trade-off between providing a high pair generation rate(PGR)and high extraction *** achieve high PGR,devices are generally operated with the signal and idler photons in the undercoupling regime and pump photons at the critical coupling point,while high extraction rates require the converted photons to be ***,the optimal conditions for achieving maximal output photon pair flux are critical coupling for the pump photons and overcoupling for the converted photons[2,3].
The thermal management and channel temperature evaluation of GaN power amplifiers are indispensable issues in engineering field. The transient thermal characteristics of pulse operated AlGaN/GaN high electron mobility...
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This paper presents a continuous time ultra-high speed broadband $\Sigma-\Delta$ analog-to-digital converter (ADC) with a clock sampling rate of 20 GS/s based on 0.7 $\boldsymbol{\mu}\mathbf{m}\ \mathbf{InP}$ DHBT...
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ISBN:
(纸本)9781665482271
This paper presents a continuous time ultra-high speed broadband $\Sigma-\Delta$ analog-to-digital converter (ADC) with a clock sampling rate of 20 GS/s based on 0.7 $\boldsymbol{\mu}\mathbf{m}\ \mathbf{InP}$ DHBT process. The ADC includes a low-pass second-order $\Sigma-\Delta$ Modulator, which adopts 2bit quantization. The circuit includes a high linearity 2-bit current steering digital to analog converter (DAC). A system level simulation is presented considering values of resistors and capacitors in the integrator, as well as other data regarding the opamp and the quantizer. Simulation results show that for input signal of 1000mV, when the sampling rate is 20GSps, the $\Sigma-\Delta$ ADC designed has a spurious free dynamic range (SFDR) of 45.1dB and a signal-to-noise ratio (SNR) of 35.2dB for input frequency of 620.12 MHz.
The resolution enhancement lithography assisted by chemical shrink (RELACS) is presented to increase the resolution of the i-line lithography. We have succeeded in developing an advanced i-line lithography process bas...
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