Showing total 2 results

1. A Low-Noise, Positive-Input, Negative-Output Voltage Generator for Low-to-Moderate Driving Capacity Applications.

Author

Khanna, Devrishi, Boon, Chirn Chye, Choi, Pilsoon, Siek, Liter, Liu, Bei, and Li, Chenyang

Subjects

*GALLIUM nitride, *ELECTRIC potential, *POWER amplifiers, *TRIBOELECTRICITY, *ON-chip charge pumps, *VOLTAGE control, *PATTERN matching

Abstract

In this paper, a generic, low-noise, negative-voltage generator with wide tuning range and moderate driving capacity is presented. The highly integrated solution, incorporating a fully-integrated charge-pump and a regulator block, requires only one off-chip capacitor that can be shared with the supply decoupling capacitors. The fully integrated charge-pump operation is analyzed quantitatively, and a closed-form expression of its output impedance is derived. Powered from a single 3.3-V dc input, the output has a tuning range from −4.4 to +2.1 V for biasing applications, while the design supports a maximum load current of 250, 550, and $800~\mu \text{A}$ for the regulated output voltage at −3.0, −1.5, and 1.5 V, respectively. The measured steady-state ripple is under 3 mVPP, while the noise voltage at the charge-pump operating frequency harmonics is below 130 $\mu \text {V}_{\mathrm{ rms}}$ and the noise floor is under $5~\mu \text {V}_{\mathrm{ rms}}$. The design is also the application verified with a gallium nitride power amplifier, thus further confirming its low-noise performance. Implemented in CMOS 180-nm process, the prototype chip occupies an area of 0.55 mm2. [ABSTRACT FROM AUTHOR]

Published

2019

2. Design of a Switched-Capacitor DC-DC Converter With a Wide Input Voltage Range.

Author

Wei, Chia-Ling and Shih, Ming-Hsien

Subjects

*DC-to-DC converters, *CAPACITORS, *ELECTRIC current converters, *VOLTAGE-frequency converters, *ELECTRIC potential, *ELECTRIC generator protection

Abstract

A triple-mode step-up/step-down switched-capacitor DC-DC converter is proposed, and it can work with a wide input voltage range. There are three operational modes in the proposed converter: triple-step-up, double-step-up, and step-down modes. A built-in clock generator was designed to generate a constant switching frequency, independent of the input voltage. The proposed circuit was implemented by a 0.35-\mum CMOS mixed-signal 2P4M 3.3/5 V polycide process with a die area of 1.56\times 1.47\ mm^2. The output voltage is fixed at 3.3 V, while the input voltage range is 1.8–5 V. The maximal load current for a 1.8-V input voltage is 10 mA, while it increases to 30 mA when the input voltage is larger than 3 V. [ABSTRACT FROM PUBLISHER]

Published

2013