A fully integrated low noise HEMT charge preamplifier

Being ready-to-detect over a certain portion of time makes the time-gated single-photon avalanche diode (SPAD) an attractive candidate for low-noise photon-counting applications. A careful SPAD noise and performance characterization, however, is critical to avoid time-consuming experimental optimization and redesign iterations for such applications. Here, we present an extensive empirical study of the breakdown voltage, as well as the dark-count and afterpulsing noise mechanisms for a fully integrated time-gated SPAD detector in 0.35-μm CMOS based on experimental data acquired in a dark condition. An “effective” SPAD breakdown voltage is introduced to enable efficient characterization and modeling of the dark-count and afterpulsing probabilities with respect to the excess bias voltage and the gating duration time. The presented breakdown and noise models will allow for accurate modeling and optimization of SPAD-based detector designs, where the SPAD noise can impose severe trade-offs with speed and sensitivity as is shown via an example.

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High-CMRR Low-Noise Fully Integrated Front-End for EEG Acquisition Systems

Electronics ◽

10.3390/electronics8101157 ◽

2019 ◽

Vol 8 (10) ◽

pp. 1157 ◽

Cited By ~ 1

Author(s):

Robert Chebli ◽

Mohamed Ali ◽

Mohamad Sawan

Keyword(s):

Low Noise ◽

Common Mode ◽

Fully Integrated ◽

Dc Offset ◽

Chopper Stabilization ◽

Logarithmic Amplifier ◽

Offset Voltage ◽

High Cmrr ◽

Programmable Gain ◽

Stabilization Technique

We present in this paper a fully integrated low-noise high common-mode rejection ratio (CMRR) logarithmic programmable gain amplifier (LPGA) and chopped LPGA circuits for EEG acquisition systems. The proposed LPGA is based on a rail-to-rail true logarithmic amplifier (TLA) stage. The high CMRR achieved in this work is a result of cascading three amplification stages to construct the LPGA in addition to the lower common-mode gain of the proposed logarithmic amplification topology. In addition, the 1 / f noise and the inherent DC offset voltage of the input transistors are reduced using a chopper stabilization technique. The CMOS 180 nm standard technology is used to implement the circuits. Experimental results for the integrated LPGA show a CMRR of 140 dB, a differential gain of 37 dB, an input-referred noise of 0.754 μ Vrms, a 189 μ W power consumption from 1.8 V power supply and occupies an active area of 0.4 mm 2 .

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A Low-Voltage Fully-Integrated 4.5-6-GHz CMOS Variable Gain Low Noise Amplifier

33rd European Microwave Conference, 2003 ◽

10.1109/euma.2003.340814 ◽

2003 ◽

Author(s):

Ming-Da Tsai ◽

Ren-Chieh Liu ◽

Chin-Shen Lin ◽

Huei Wang

Keyword(s):

Low Voltage ◽

Low Noise ◽

Low Noise Amplifier ◽

Fully Integrated ◽

Variable Gain ◽

Noise Amplifier

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Fully integrated 60 GHz transceiver in SiGe BiCMOS, RF modules, and 3.6 Gbit/s OFDM data transmission

International Journal of Microwave and Wireless Technologies ◽

10.1017/s1759078711000286 ◽

2011 ◽

Vol 3 (2) ◽

pp. 139-145 ◽

Cited By ~ 10

Author(s):

Srdjan Glisic ◽

J. Christoph Scheytt ◽

Yaoming Sun ◽

Frank Herzel ◽

Ruoyu Wang ◽

...

Keyword(s):

Data Transmission ◽

Intermediate Frequency ◽

Phase Locked Loop ◽

Data Rate ◽

Low Noise ◽

60 Ghz ◽

Fully Integrated ◽

Front End ◽

Free Data ◽

Bicmos Technology

A fully integrated transmitter (TX) and receiver (RX) front-end chipset, produced in 0.25 µm SiGe:C bipolar and complementary metal oxide semiconductor (BiCMOS) technology, is presented. The front-end is intended for high-speed wireless communication in the unlicensed ISM band of 9 GHz around 60 GHz. The TXand RX features a modified heterodyne topology with a sliding intermediate frequency. The TX features a 12 GHz in-phase and quadrature (I/Q) mixer, an intermediate frequency (IF) amplifier, a phase-locked loop, a 60 GHz mixer, an image-rejection filter, and a power amplifier. The RX features a low-noise amplifier (LNA), a 60 GHz mixer, a phase-locked loop (PLL), and an IF demodulator. The measured 1-dB compression point at the TX output is 12.6 dBm and the saturated power is 16.2 dBm. The LNA has measured noise figure of 6.5 dB at 60 GHz. Error-free data transmission with a 16 quadrature amplitude modulation (QAM) orthogonal frequency-division multiplexing (OFDM) signal and data rate of 3.6 Gbit/s (without coding 4.8 Gbit/s) over 15 m was demonstrated. This is the best reported result regarding both the data rate and transmission distance in SiGe and CMOS without beamforming.

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Design of a fully integrated concurrent triple-band CMOS low noise amplifier

2003 46th Midwest Symposium on Circuits and Systems ◽

10.1109/mwscas.2003.1562519 ◽

2006 ◽

Cited By ~ 4

Author(s):

C.F. Jou ◽

Kuo-Hua Cheng ◽

Eing-Tsang Lu ◽

Yang Wang

Keyword(s):

Low Noise ◽

Low Noise Amplifier ◽

Fully Integrated ◽

Noise Amplifier ◽

Triple Band

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A Discussion of Pod Drives and Their Application In the Pleasure Boat Market

10.5957/pss-2009-17 ◽

2009 ◽

Author(s):

Christopher Swanhart

Keyword(s):

North America ◽

General Information ◽

Low Noise ◽

Noise Levels ◽

Propulsion Systems ◽

Fully Integrated ◽

Operator Interface ◽

Performance System ◽

Hull Forms

Since being introduced to North America at the Miami Boat Show in 2005, Volvo Penta Inboard Performance System, or IPS has established itself as a leading propulsion choice among pleasure boat owners and builders. Other suppliers are following suit including the Cummins Mercruiser Zeus system. Pod propulsion offers benefits like increased efficiency, better performance, nimble handling, and low noise levels while allowing more people to successfully operate their vessel due to a friendly operator interface. Features of these commercial pod systems that also benefit builders include ease of installation and the integral underwater exhaust which helps to meet CE requirements, for both exhaust and noise levels. Both IPS and Zeus are fully integrated pod propulsion systems. Existing vessels can be retro-fitted with these systems while many new vessels are being designed specifically for IPS or Zeus. Donald L. Blount and Associates provides consulting in regards to IPS integration with existing and new designs and has also been involved with designs employing the Zeus system. The first portion of this paper discusses pod drives, particularly IPS itself. (Because the author has substantially more experience and background with IPS, much of the information herein is IPS specific). General information on IPS and Zeus is offered as well as some operational specifics. The paper then focuses on the application of pod drives in existing and new vessel designs. The discussion includes how hull forms can be evaluated for use with pod drives. A look at the integration of pod systems into various types of pleasure boats (cruiser, day boat, fishing yacht, etc) is also covered including the challenges which exist for each specific vessel type.

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A 1310/1550 nm Fully-Integrated Optical Receiver with Schottky Photodiode and Low-Noise Transimpedance Amplifier in 40 nm Bulk CMOS

ESSCIRC 2018 - IEEE 44th European Solid State Circuits Conference (ESSCIRC) ◽

10.1109/esscirc.2018.8494294 ◽

2018 ◽

Cited By ~ 3

Author(s):

Wouter Diels ◽

Michiel Steyaert ◽

Filip Tavernier

Keyword(s):

Low Noise ◽

Optical Receiver ◽

Transimpedance Amplifier ◽

Fully Integrated ◽

Integrated Optical ◽

Schottky Photodiode

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A Fully Integrated Inductorless Low Noise Amplifier with 1dB-Step Programmable Gain for FM Radio Receiver Front-End

2007 IEEE International Symposium on Circuits and Systems ◽

10.1109/iscas.2007.378636 ◽

2007 ◽

Cited By ~ 1

Author(s):

Jingyu Hu ◽

Mike R. May ◽

Matt D. Felder ◽

Len DiSanza ◽

Lawrence H. Ragan

Keyword(s):

Low Noise ◽

Low Noise Amplifier ◽

Radio Receiver ◽

Fully Integrated ◽

Front End ◽

Fm Radio ◽

Noise Amplifier ◽

Programmable Gain

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Passive Components for RF-ICs

Advances in Wireless Technologies and Telecommunication - Wireless Radio-Frequency Standards and System Design ◽

10.4018/978-1-4666-0083-6.ch008 ◽

2012 ◽

pp. 189-214

Author(s):

Gianluca Cornetta ◽

David J. Santos ◽

José Manuel Vázquez

Keyword(s):

Integrated Circuits ◽

Quality Factor ◽

Silicon Substrate ◽

Supply Voltage ◽

Magnetic Behavior ◽

Low Noise ◽

Low Noise Amplifiers ◽

Fully Integrated ◽

Core Elements ◽

Low Supply Voltage

The modern wireless communication industry is demanding transceivers with a high integration level operating in the gigahertz frequency range. This, in turn, has prompted intense research in the area of monolithic passive devices. Modern fabrication processes now provide the capability to integrate onto a silicon substrate inductors and capacitors, enabling a broad range of new applications. Inductors and capacitors are the core elements of many circuits, including low-noise amplifiers, power amplifiers, baluns, mixers, and oscillators, as well as fully-integrated matching networks. While the behavior and the modeling of integrated capacitors are well understood, the design of an integrated inductor is still a challenging task since its magnetic behavior is hard to predict accurately. As the operating frequency approaches the gigahertz range, device nonlinearities, coupling effects, and skin effect dominate, making difficult the design of critical parameters such as the self-resonant frequency, the quality factor, and self and mutual inductances. However, despite the parasitic effects and the low quality-factor, integrated inductors still allow for the implementation of integrated circuits with improved performances under low supply voltage. In this chapter, the authors review the technology behind monolithic capacitors and inductors on silicon substrate for high-frequency applications, with major emphasis on physical implementation and modeling.

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