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制作了发射极面积为1μm×15μm×4指的InP DHBT器件,器件拓扑使用了共基极和共发射极两种结构,通过负载牵引测试系统对器件功率特性进行测试。在功率优化匹配条件下,所测得最大输出功率密度和相应的功率附加效率(PAE)在10GHz下为1.24W/mm和50%,在18GHz下的数据为0.82W/mm和26%。测试同时表明,共发射极结构相对稳定和易于匹配,共基极模式具有更大的输出功率潜力,但需要进一步解决难于匹配、容易振荡和寄生参量影响等问题。在功放电路设计中,可以根据不同需求选择合适的电路拓扑结构。 相似文献
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A virtual loop model was built by the transmission analysis with virtual ground method to assist the negative-resistance oscillator design, providing more perspectives on output power and phase-noise optimization. In this work, the virtual loop described the original circuit successfully and the optimizations were effective. A 10 GHz high-efficiency low phase-noise oscillator utilizing an InGaP/GaAs HBT was achieved. The 10.028 GHz oscillator delivered an output power of over 15 dBm with a phase-noise of lower than -107 dBc/Hz at 100 kHz offset. The efficiency of DC to RF transformation was 35 %. The results led to a good oscillator figure of merit of-188 dBc/Hz. The measurement results agreed well with those of the simulations. 相似文献
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An InP/InGaAs single heterojunction bipolar transistor(SHBT) with high maximum oscillation frequency (f_(max)) and high cutoff frequency(f_t) is reported.Efforts have been made to maximize f_(max) and f_t simultaneously including optimizing the epitaxial structure,base-collector mesa over-etching and base surface preparation.The measured f_t and f_(max) both reached 185 GHz with an emitter size of 1×20μm~2,which is the highest f_(max) for SHBTs in mainland China.The device is suitable for ultra-high spee... 相似文献
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An InP/InGaAs single heterojunction bipolar transistor (SHBT) with high maximum oscillation frequency (fmax) and high cutoff frequency (ft) is reported. Efforts have been made to maximize fmax and ft simultaneously including optimizing the epitaxial structure, base–collector mesa over-etching and base surface preparation. The measured ft and fmax both reached 185 GHz with an emitter size of 1 × 20 μ m2, which is the highest fmax for SHBTs in mainland China. The device is suitable for ultra-high speed digital circuits and low power analog applications. 相似文献
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报道了基于InP基双屏质结双板晶体管(DHBT)工艺的四指共射共基75 GHz微波单片集成(MMIC)功率放大器,器件的最高振荡频率fmax为150 GHz.放大器的输出极发射极面积为15μm×4μm.功率放大器在75 GHz时功率增益为12.3 dB,饱和输出功率为13.92 dBm.放大器在72.5 GHz处输入为2 dBm时达到最大输出功率14.53 dBm.整个芯片传输连接采用共面波导结构,芯片面积为1.06 mm×0.75 mm. 相似文献
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从物理机制上分析了超高速InP/InGaAs SHBT碰撞电离与温度的关系,通过加入表示温度的参数和简化电场计算,得到一种改进的碰撞电离模型.同时针对自有工艺和器件特性,采用SDD(symbolically defined device)技术建立了一个包括碰撞电离和自热效应的InP/InGaAs SHBT的直流模型.模型内嵌入HP-ADS中仿真并与测试结果进行比较,准确地拟合了InP/InGaAs SHBT的器件特性. 相似文献
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Static frequency dividers are widely used as a circuit performance benchmark or figure-of-merit indicator to gauge a particular device technology’s ability to implement high speed digital and integrated high performance mixed-signal circuits.We report a 2:1 static frequency divider in InGaAs/InP heterojunction bipolar transistor technology.This is the first InP based digital integrated circuit ever reported on the mainland of China. The divider is implemented in differential current mode logic(CML) with 30 transistors.The circuit operated at a peak clock frequency of 40 GHz and dissipated 650 mW from a single -5 V supply. 相似文献
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A 6 GHz voltage controlled oscillator (VCO) optimized for power and noise performance was designed and characterized. This VCO was designed with the negative-resistance (Neg-R) method, utilizing an InGaP/GaAs hetero-junction bipolar transistor in the negative-resistance block. A proper output matching network and a high Q stripe line resonator were used to enhance output power and depress phase noise. Measured central frequency of the VCO was 6.008 GHz. The tuning range was more than 200 MHz. At the central frequency, an output power of 9.8 dBm and phase noise of-122.33 dBc/Hz at 1 MHz offset were achieved, the calculated RF to DC efficiency was about 14%, and the figure of merit was -179.2 dBc/Hz. 相似文献