A. Budyakov, K. Schmalz, N. N. Prokopenko, C. Scheytt, P. Ostrovskyy
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引用次数: 15
摘要
我们比较了采用0.25 μ m SiGe互补(pnp/npn)技术和0.13 μ m SiGe BiCMOS(仅使用npn)开发的全差分放大器的射频性能。采用相同的补偿技术,分析了这些放大器的频率响应,重点分析了相位裕度(PM)和增益裕度(GM)。与0.13 mum BiCMOS设计(电源电压为4 V)相比,pnp/npn opamp在单位增益带宽(UGB)和电流消耗方面具有优势。对于pnp/npn opamp,在PM为57度的情况下可以实现23 GHz的UGB。在pnp/npn运放的情况下,电源电压可以降低到3 V使用新的拓扑与电阻的尾电流。优化的RF pnp/npn opamp允许设计一个24 GHz带宽的差分线路驱动器(50欧姆)和一个二阶2 GHz双路带通滤波器。
Design of bipolar differential opamps with unity gain bandwidth up to 23 GHz
We compare the RF performance of fully differential opamps developed in 0.25 mum SiGe complementary (pnp/npn) technology and 0.13 mum SiGe BiCMOS (with npn only). Using the same compensation technique, the frequency response of these opamps is analyzed with emphasis on the phase margin (PM) and gain margin (GM). The pnp/npn opamp has advantage in unity gain bandwidth (UGB) and current consumption in comparison to the 0.13 mum BiCMOS design (supply voltage of 4 V). For the pnp/npn opamp a 23 GHz UGB can be achieved with PM of 57 degrees. In case of the pnp/npn opamp the supply voltage can be reduced to 3 V using a new topology with resistor for tail current. The optimized RF pnp/npn opamp allows the design of a differential line driver (50 Ohm) with 24 GHz bandwidth and a second order 2 GHz biquad bandpass filter.
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