Hsieh-Hung Hsieh scite author profile

By utilizing a differential tunable active inductor for the LC-tank, a wide tuning-range CMOS voltage-controlled oscillator (VCO) is presented. In the proposed circuit topology, the coarse frequency tuning is achieved by the tunable active inductor, while the fine tuning is controlled by the varactor. Using a 0.18-m CMOS process, a prototype VCO is implemented for demonstration. The fabricated circuit provides an output frequency from 500 MHz to 3.0 GHz, resulting in a tuning range of 143% at radio frequencies. The measured phase noise is from 101 to 118 dBc/Hz at a 1-MHz offset within the entire frequency range. Due to the absence of the spiral inductors, the fully integrated VCO occupies an active area of 150 300 m 2 .

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An Amorphous-Silicon Operational Amplifier and Its Application to a 4-Bit Digital-to-Analog Converter

Tarn

Hsieh

et al. 2010

IEEE J. Solid-State Circuits

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Design of Ultra-Low-Voltage RF Frontends With Complementary Current-Reused Architectures

Hsieh

2007

IEEE Trans. Microwave Theory Techn.

113

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In this paper, ultra-low-voltage circuit techniques are presented for CMOS RF frontends. By employing a complementary current-reused architecture, the RF building blocks including a low-noise amplifier (LNA) and a single-balanced down-conversion mixer can operate at a reduced supply voltage with microwatt power consumption while maintaining reasonable circuit performance at multigigahertz frequencies. Based on the MOSFET model in moderate and weak inversion, theoretical analysis and design considerations of the proposed circuit techniques are described in detail. Using a standard 0.18-m CMOS process, prototype frontend circuits are implemented at the 5-GHz frequency band for demonstration. From the measurement results, the fully integrated LNA exhibits a gain of 9.2 dB and a noise figure of 4.5 dB at 5 GHz, while the mixer has a conversion gain of 3.2 dB and an IIP 3 of 8 dBm. Operated at a supply voltage of 0.6 V, the power consumptions of the LNA and the mixer are 900 and 792 W, respectively.

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A High-Performance CMOS Voltage-Controlled Oscillator for Ultra-Low-Voltage Operations

Hsieh

2007

IEEE Trans. Microwave Theory Techn.

101

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In this paper, a novel circuit topology of voltage-controlled oscillators (VCOs) suitable for ultra-low-voltage operations is presented. By utilizing the capacitive feedback and the forward-body-bias (FBB) technique, the proposed VCO can operate at reduced supply voltage and power consumption while maintaining remarkable circuit performance in terms of phase noise, tuning range, and output swing. Using a standard 0.18-m CMOS process, a 5.6-GHz VCO is designed and fabricated for demonstration. Consuming a dc power of 3 mW from a 0.6-V supply voltage, the VCO exhibits a frequency tuning range of 8.1% and a phase noise of 118 dBc/Hz at 1-MHz offset frequency. With an FBB for the cross-coupled transistors, the fabricated circuit can operate at a supply voltage as low as 0.4 V. The measured tuning range and phase noise are 6.4% and 114 dBc/Hz, respectively. Index Terms-Capacitive feedback, forward body bias (FBB), ultra-low power, ultra-low voltage, voltage-controlled oscillators (VCOs).

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60GHz high-gain low-noise amplifiers with a common-gate inductive feedback in 65nm CMOS

Hsieh

Jou

et al. 2011

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Hsieh-Hung Hsieh

A Wide Tuning-Range CMOS VCO With a Differential Tunable Active Inductor

An Amorphous-Silicon Operational Amplifier and Its Application to a 4-Bit Digital-to-Analog Converter

Design of Ultra-Low-Voltage RF Frontends With Complementary Current-Reused Architectures

A High-Performance CMOS Voltage-Controlled Oscillator for Ultra-Low-Voltage Operations

60GHz high-gain low-noise amplifiers with a common-gate inductive feedback in 65nm CMOS

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