Low-cost high-performance W-band LNA MMICs for millimeter-wave imaging

The main limitation to the sensitivity of a radiometer or imager is its equivalent noise temperatures, T_e. Placing a low noise amplifier (LNA) at a radiometer's front end can dramatically reduce T_e. LNA performance has steadily improved over recent years, and here we report on a W-band LNA with the lowest T_e measured at room temperature. Furthermore, we present statistical RF data showing high yield and consistency for future high volume production that is needed for commercial radiometric imaging array applications such as security screening, aircraft landing, and other systems

Low-cost CW-LFM radar sensor at 100 GHz

This paper presents a W-band high-resolution radar sensor for short-range applications. Low-cost technologies have been properly selected in order to implement a versatile and easily scalable radar system. A large operational bandwidth of 9 GHz, required for obtaining high-range resolution, is attained by means of a frequency multiplication-based architecture. The system characterization to identify the performance-limiting stages and the subsequent design optimization are presented. The assessment of system performance for several representative applications has been carried out

csi and csi7 current source inverters for modular transformerless pv inverters

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A 3.5-THz, x6-Harmonic, Single-Ended Schottky Diode Mixer for Frequency Stabilization of Quantum-Cascade Lasers

Efficient and compact frequency converters are essential for frequency stabilization of terahertz sources. In this paper, we present a 3.5-THz, x6-harmonic, integrated Schottky diode mixer operating at room temperature. The designed frequency converter is based on a single-ended, planar Schottky diode with a sub-micron anode contact area defined on a suspended 2-$\mu$m ultra-thin GaAs substrate. The dc-grounded anode pad was combined with the radio frequency E-plane probe, which resulted in an electrically compact circuit. At 200 MHz intermediate frequency, a mixer conversion loss of about 59 dB is measured and resulting in a 40 dB signal-to-noise ratio for phase locking 3.5-THz quantum-cascade laser. Using a quasi-static diode model combined with electromagnetic simulations, good agreement with the measured results was obtained. Harmonic frequency converters without the need of cryogenic cooling will help in the realization of highly sensitive space and air-borne heterodyne receivers.Comment: Submitted to IEEE-TS

An ultra-wideband SiGe BiCMOS LNA for w-band applications

This article presents the design steps and implementation of a W-band ultra-wideband low noise amplifier (LNA) for both automotive and imaging applications. Three amplifiers based on common-emitter topology with different configurations are manufactured using IHP 0.13 mu m SiGe BiCMOS 300/500 GHz (f(t)/f(max)) SG13G2 technology. A three-stage single-ended structure is proposed for ultra-wideband imaging purposes. As the results are analyzed, this 0.2 mm(2) LNA can operate in a 25 GHz of measured 3-dB bandwidth in W-band with 21 dB peak gain and 4.9 dB average noise figure using 1.5 V supply voltage. It consumes 50 mW of power in the edge operation conditions and the output 1 dB compression point is found as -4 dBm. To the authors' knowledge, this chip achieves one of the best overall performances compared to other W-band LNAs

MEMS-Based Millimeter Front-end for Automotive Radar Applications

Automotive front-end radars are key components in modern vehicles. They are used in automatic cruise control (ACC) for advanced drive-assistance and security functions, including collision-avoidance systems. Automotive safety is being studied intensively both in industry and academia. One of the most serious limitations of high performance radar are beam-forming network systems, due to the complexity and bulkiness arising from the additional circuitry and hardware needed to implement multiple functionalities into the systems. This limitation can, however, be minimized and made cost-effective by capitalizing on the numerous advantages of RF MEMS and WG technologies. To resolve this issue, the present study covers the characterization of SPST and SPNT RF-MEMS switches at 77 GHz, the investigation and fabrication of a Rotman lens at 77 GHz, and the development of the ground work for a 3D monolithically integrated BFN on a single silicon substrate

Low-cost high-performance W-band LNA MMICs for millimeter-wave imaging

The main limitation to the sensitivity of a radiometer or imager is its equivalent noise temperatures, T_e. Placing a low noise amplifier (LNA) at a radiometer's front end can dramatically reduce T_e. LNA performance has steadily improved over recent years, and here we report on a W-band LNA with the lowest T_e measured at room temperature. Furthermore, we present statistical RF data showing high yield and consistency for future high volume production that is needed for commercial radiometric imaging array applications such as security screening, aircraft landing, and other systems