SiGe HBT的速度优化设计

从理论分析角度介绍了优化SiGe异质结晶体管速度的方法。结合双极晶体管的工艺限制，介绍了SiGeHBT的基本原理，讨论了SiGeHBT的发射区／基区／集电区设计。最后，以一个100GHzfmax和fT的HBT为例，对电路制作工艺参数进行了讨论。     

Origin of 1/f noise in lateral PNP bipolar transistors

1/f noise was measured on lateral bipolar PNP transistors over a temperature range of 220<T<450 K. Noise power spectral density measurements were performed simultaneously across two resistors connected in series with base and collector. The equivalent base current noise source S_IB has two dominant components. One is S_IBE that is between the base and the emitter, in parallel with r_π. The other is S_IBC coming from the surface recombination current at the neutral base, between the base and the collector. The extracted S_IB exhibited a near square law dependence on base current I_B. The noise remained nearly constant when the temperature was below 310 K. However, it presented strong temperature dependence when the temperature was beyond 310 K. Two different models are proposed for the noise in different temperature regions. For the high temperature region, the surface recombination velocity fluctuation model is proposed, which indicates that the noise is coming from the fluctuations in the surface recombination velocity at the neutral base surface. The tunneling assistant trapping model is responsible for the low temperature region, where the noise source is the carrier trapping–detrapping by the defects in the spacer oxide covering the surface of the depletion layer.     

SiGe HBT低频噪声PSPICE模拟分析

对SiGe HBT低频噪声的各噪声源进行了较全面的分析,据此建立了SPICE噪声等效电路模型,进一步用PSPICE软件对SiGe HBT的低频噪声特性进行了仿真模拟.研究了频率、基极电阻、工作电流和温度等因素对低频噪声的影响.模拟结果表明,相较于Si BJT和GaAs HBT,SiGe HBT具有更好的低频噪声特性;在低频范围内,可通过减小基极电阻、减小工作电流密度或减小发射极面积、降低器件的工作温度等措施来有效改善SiGe HBT的低频噪声特性.所得结果对SiGe HBT的设计和应用有重要意义.     

TCAD modeling of NPN-SI-BJT electrical performance improvement through SiGe extrinsic stress layer

The impact of introducing a SiGe stress layer formed over the extrinsic base and adjacent to the intrinsic base of NPN-Si-BJT device on the electrical properties and frequency response has been studied using TCAD modeling. Approximately 42% improvement in f_t and 13% improvement in f_max have been achieved for the strained NPN-Si-BJT device in comparison with an equivalent standard conventional BJT device. In addition to that, an enhancement of the collector current by almost three times has been achieved. The same approach has been applied for NPN-SiGe-HBT device to clarify the impact of the extrinsic SiGe stress on the device's performance using TCAD modeling. Simulation results have shown that applying the SiGe stress layer on the base region of the HBT device is less efficient in comparison with the BJT device, as the SiGe base is already stressed due to the existence of Ge at the base. Approximately 5% improvement in f_max and 3% improvement in f_t have been achieved for the strained HBT device in comparison with an equivalent standard conventional HBT device.     

Dependence of low frequency noise in SiGe heterojunction bipolar transistors on the dimensional and structural features of extrinsic regions

In this paper, the effects of different transistor design aspects on the noise behavior of SiGe heterojunction bipolar transistors have been investigated. Selectively implanted collector, although retards the base push-out, does not deteriorate the noise characteristics. Moreover, a higher dopant implant in the extrinsic base region intended for a smaller base resistance does not deteriorate the noise characteristics. While the interface between the SiGe epitaxial and polycrystalline layers does not have any detrimental impact, the emitter-poly overlap significantly influences both the DC and the noise characteristics. Smaller emitter-poly overlap results in an increased non-ideal base current at lower bias voltages and produces appreciable generation–recombination noise. For all the transistors, except for the ones with smaller emitter-poly overlap, the base current noise power spectral density shows a near quadratic dependence on the base current, where the noise is believed to originate mostly from the superposition of the generation–recombination noise in the intrinsic emitter–base junction. The base current noise power spectral density for the transistors with a smaller emitter-poly overlap shows a near linear dependence on the base current, which results from an increased contribution from the trap-assisted tunneling fluctuations of the minority carriers at the surface of the emitter–base junction.     

1200 V 4H-SiC Bipolar Junction Transistors with A Record β of 70

A common current gain of 70 has been achieved in 4H-SiC bipolar junction transistors (BJTs) at room temperature, which is the highest among those reported. BJTs having an active area of 4 mm × 4 mm exhibit a specific on-resistance of 6.3 mΩ cm² at 25°C, which increases to 17.4 mΩ cm² at 250°C. BV_CEO (the breakdown voltage from collector to emitter with open base) and BV_CBO (the breakdown voltage from collector to base with open emitter) of 1200 V were observed at <5 μA leakage currents at all temperatures up to 250°C. Dynamic characteristics were measured using the IXYS RF/Directed Energy IXDD415 gate driver evaluation board to drive the BJT. A collector current (I _C) rise time at turn-on of 32 ns was measured with a 1.6 A gate current provided to support the collector current of 63 A. An I _C fall time at turn-off of 16 ns was achieved.     

基区重掺杂对SiGe HBT热学性能的影响

相对于同质结晶体管,异质结双极晶体管(HBT)由于异质结的存在,电流增益不再主要由发射区和基区掺杂浓度比来决定,因此可以通过增加基区掺杂浓度来降低基区电阻,提高频率响应,降低噪声系数,但基区掺杂浓度对器件热特性影响的研究却很少。以多指SiGeHBT的热电反馈模型为基础,利用自洽迭代法分析了基区重掺杂对器件集电极电流密度和发射极指温度的影响。通过研究发现,随着基区浓度的增加,SiGe HBT将发生禁带宽度变窄,基区反向注入发射区的空穴电流增大;同时,基区少子俄歇复合增强,这些都将减小集电极电流密度,降低发射极指温度,从而抑制发射极指热电正反馈,提高器件的热稳定性。     

Applications and processing of SiGe and SiGe:C for high-speed HBT devices

The continued growth of high-speed-digital data transmission and wireless communications technology has motivated increased integration levels for ICs serving these markets. Further, the increasing use of portable wireless communications tools requiring long battery lifetimes necessitates low power consumption by the semiconductor devices within these tools. The SiGe and SiGe:C materials systems provide solutions to both of these market needs in that they are fully monolithically integratible with Si BiCMOS technology. Also, the use of SiGe or SiGe:C HBTs for the high-frequency bipolar elements in the BiCMOS circuits results in greatly decreased power consumption when compared to Si BJT devices.Either a DFT (graded Ge content across the base) or a true HBT (constant Ge content across the base) bipolar transistor can be fabricated using SiGe or SiGe:C. Historically, the graded profile has been favored in the industry since the average Ge content in the pseudomorphic base is less than that of a true HBT and, therefore, the DFT is tolerant of higher thermal budget processing after deposition of the base. The inclusion of small amounts of C (e.g. <0.5%) in SiGe is effective in suppressing the diffusion of B such that very narrow extremely heavily doped base regions can be built. Thus the f_T and f_max of a SiGe:C HBT/DFT are capable of being much higher than that of a SiGe HBT/DFT.The growth of the base region can be accomplished by either nonselective mixed deposition or by selective epitaxy. The nonselective process has the advantage of reduced complexity, higher deposition rate and, therefore, higher productivity than the selective epitaxy process. The selective epi process, however, requires fewer changes to an existing fabrication sequence in order to accommodate SiGe or SiGe:C HBT/DFT devices into the BiCMOS circuit.     

异质结双极晶体管高频噪声建模及分析

提出了一个T等效异质结双极晶体管高频噪声电路模型.该模型是对通常用在硅双极晶体管中的Hawkins噪声模型进行改进得到的,主要的改进包括发射极理想因子、发射极电阻、内部BC结电容、外部BC结电容和其它寄生元素对器件噪声性能的影响.为了从等效噪声电路模型中计算出精确的噪声参数,采用了噪声相关矩阵法来计算噪声参数,从而避免了在等效电路变换中可能产生的简化和复杂的噪声测量.进一步利用该模型分析了等效电路元素对器件最小噪声系数的影响,分析计算结果和物理解释一致.同时通过基于异质结双极晶体管器件物理的公式,给出了器件参数对器件最小噪声系数的影响.     

Decreased low frequency noise by hydrogen passivation of polysilicon emitter bipolar transistors

The effect of hydrogen passivation by forming gas annealing (FGA) on the bipolar junction transistor low frequency noise was investigated. The results demonstrated a reduced 1/f noise component by a factor of five after FGA, which resulted in a reduced corner frequency. An equivalent input noise spectral density (S_IB) dependence on base current (I_B) of S_IBI²_B and on emitter area (A_E) of S_IBA_E⁻¹ was observed, both before and after FGA. The interpretations of the results were (a) the 1/f noise was due to carrier number fluctuation, (b) the noise sources were homogeneously distributed over the polysilicon/monosilicon emitter interfacial oxide, and (c) the noise sources were passivated by hydrogen.     

Theoretical small-signal performance of Si/SiGe/Si HBT

Application of the Monte Carlo technique to analyze electron and hole transport in bulk Si_0.8Ge_0.2 and strained Si _0.8Ge_0.2/Si is discussed. The computed minority- and majority-carrier transport properties were used in a comprehensive small-signal model to evaluate the high-frequency performance of a state-of-the-art n-p-n heterostructure bipolar transistors (HBT) fabricated with SiGe as the base material. The valence band discontinuity of a SiGe-base HBT reverses the degradation in emitter injection efficiency caused by bandgap narrowing in the base, and permits a higher ratio of base doping to emitter doping than would be practical for a bipolar transistor. Any degradative effect of increased base doping on electron and hole mobilities is offset by improved transport in the strained SiGe base, resulting in a marked decrease in the base resistance and base transit time. Compared to the Si BJT, the use of Si_0.8Ge_0.2 for the base region of an HBT leads to significant improvements in low-frequency common emitter current gain, low-frequency unilateral power gain, and maximum oscillation frequency     

Low frequency noise in complementary npn and pnp polysilicon emitter bipolar junction transistors

Low frequency noise characteristics of high voltage, high performance complementary polysilicon emitter bipolar transistors are described. The influence of the base biasing resistance, emitter geometry and temperature on the noise spectra are discussed. The npn transistors studied exhibited 1/f and shot noise, but the pnp transistors are characterized by significant generation–recombination noise contributions to the total noise. For both types of transistors, the measured output noise is determined primarily by the noise sources in the polysilicon–monosilicon interface. The level of the 1/f noise is proportional to the square of the base current for both npn and pnp transistors. The contribution of the 1/f noise in the collector current is also estimated. The area dependence of 1/f noise in both types of transistors as well as other npn bipolar transistors are presented.     

Extraction of small-signal equivalent circuit model parameters for Si/SiGe HBT using S-parameters measurements and one geometrical information

A physical and simple method is proposed to extract the hybrid-π small-signal equivalent circuit model of Si/SiGe heterojunction bipolar transistor (HBT). In this method, we use test (dummy) structures to extract by means of fitting techniques the extrinsic bias-independent parameters representing the contact pads plus the transmission line connections to the core of the active device. All intrinsic bias-dependent parameters are calculated analytically from S-parameters only. The ratio of the area of the emitter contact to base area is used to solve the base–collector feedback problem due to the distributed nature of the base. Using this physical (geometry) constraint instead of the measured direct current (DC) information helps to get more reliable parameters and easier calculations. When we applied this methodology, a good agreement is obtained between the modelled S-parameters with the corresponding measured ones over the broad band from 40 MHz to 20.02 GHz. The error for three different bias points was less than 1.2%.     

Experimental study of bias dependence of pulsed laser-induced single-event transient in SiGe HBT

This work presents a comprehensive investigation of single-event transient (SET) in SiGe HBT induced by pulsed laser irradiation at different bias conditions. The impacts of collector voltage V_CC and base voltage V_B on SET are compared and discussed. Experimental results show that SET in SiGe HBT highly depends on the applied bias conditions during irradiation. The underlying physical mechanisms are analyzed in detail. It is found that the variation of collector transient current approximately satisfies an ideal exponential discharge law. The additional discharge path plays a significant role in collector charge collection and discharge time constant once the transistors arrive at the reverse-active mode.     

Improved performances of a two-step passivated heterojunction bipolar transistor

An interesting InGaP/GaAs heterojunction bipolar transistor (HBT) with a two-step passivated (ledge structure and sulfur treatment) process on the base surface has been fabricated and studied. Based on the two-step passivation, improved transistor characteristics including the specific contact resistances ρ_C, sheet resistances R_sh, base surface recombination current density J_SR, base current ideality factor n_B, and microwave performances are obtained. Furthermore, the device with two-step passivation reveals the better thermal stability on ρ_C, R_sh, and n_B than the devices with and without ledge structure. Therefore, the two-step passivation method can be employed for high-temperature and low-power electronics applications.     

Ge组分对SiGe HBT直流特性的影响

制作了基区Ge组分分别为0.20和0.23的多发射极指数双台面结构SiGe异质结双极型晶体管(HBT)。实验结果表明,基区Ge组分的微小增加,引起了较大的基极复合电流,但减小了总的基极电流,提高了发射结的注入效率,电流增益成倍地提高。Ge组分从0.20增加到0.23,HBT的最大直流电流增益从60增加到158,提高了约2.6倍。     

Reliability of submicron InGaAs/InP DHBT under thermal and electrical stresses

We report on the reliability of InGaAs/InP DHBT technology which has applications in very high-speed ICs (over 100 Gbits/s). This work presents the results of accelerated aging tests under thermal and electrical stresses performed on HBT up to 2000 h. Stress conditions consist in applying collector–emitter bias V_CE from 1.3 to 2.7 V and collector current densities J_C of 400 and 610 kA/cm². The corresponding junction temperatures T_J extends from 83 to 137 °C. The base current ideality factor η_B increase and the current gain β decrease have revealed a degradation of the base–emitter junction. The normalized current gain β_norm drop has occurred earlier for higher V_CE and/or higher T_J. A 20% decrease of β_norm chosen as the failure criterion leads to an activation energy of 1.1 eV.     

Analysis of the transistor-related noise in integrated p-i-n-HBToptical receiver front-ends

The equivalent-input-noise-current spectral density for a monolithically integrated optical receiver front-end using InP/InGaAs heterojunction bipolar transistors and a p-i-n photodiode is computed from a small-signal model. Particular attention is paid to the contributions to the noise from the HBT in the first stage of the amplifier. It is shown that with transistors designed for 1-10-Gb/s receivers the base current shot noise dominates in the frequency range from 10 MHz to 1 GHz, and both the base resistance thermal noise and the collector current shot noise are important at higher frequencies. Device features which determine the extent of these noise sources are identified, and ways to improve the noise performance are discussed     

SiGe HBT高频噪声等效模型研究

对硅锗异质结双极型晶体管（SiGe HBT）等效高频噪声模型进行了研究,在建模过程中,SiGe HBT的等效电路为小信号准静态等效电路,使用二端口网络噪声相关矩阵技术从实测噪声参数提取基极和发射极的散粒噪声,提取结果与几种散粒噪声模型进行对比分析,重点研究半经验模型建立过程,对半经验模型与常用的噪声模型使用CAD仿真验证,结果表明了半经验模型的有效性、更具准确性,该半经验模型能够用到不同工艺SiGe HBT的高频噪声模拟。     

微波功率SiGe HBT的温度特性

通过研究SiGe异质结双极型晶体管(HBT)的温度特性，发现SiGe HBT的发射结正向电压随温度的变化率小于同质结Si双极型晶体管(BJT). 在提高器件或电路热稳定性时，SiGe HBT可以使用比Si BJT更小的镇流电阻.同时SiGe HBT共发射级输出特性曲线在高电压大电流下具有负阻特性，而负阻效应的存在可以有效地抑制器件的热不稳定性效应，从而在温度特性方面证明了SiGe HBT更适合于微波功率器件.