Revistas
Revista:
IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES
ISSN:
0018-9480
Año:
2023
Vol.:
71
N°:
2
Págs.:
854 - 869
A 16-element 140-160-GHz phased array transceiver is reported. The chipset is fabricated using STMicroelectronics' 55-nm SiGe BiCMOS process. Five different chips are implemented: a 4-channel transmitter with a maximum gain per channel of 15 dB and 0-dBm saturated output power; a 4-channel receiver with a maximum gain of 8 dB, a -10.4-dBm input 1-dB compression point (IP1 dB), and a minimum noise figure (NF) of 15.6 dB per channel; a 0-1-GHz to 140-160-GHz I/Q up-converter with integrated frequency doubler, exhibiting a -13.5-dB conversion gain (CG) and -6-dBm output 1-dB compression point using a 70-80-GHz local oscillator (LO); a 140-160-GHz to 0-1-GHz I/Q down-converter with integrated frequency doubler, exhibiting a CG of 0 dB and IP1 dB of 0 dBm using a 70-80-GHz LO and an 11.67-13.33-GHz to 70-80-GHz x6 frequency multiplier for the LO, delivering 5.6-dBm maximum output power. The chips are assembled together with 16 cavity-backed aperture-coupled patch antennas using a high-performance and low-cost commercial PCB, supported over a heat sink. The main challenges encountered during the integration of the proposed system are also discussed. The complete system is used to build a wireless radio link in the laboratory, demonstrating 2-D beam steering in a range of +/- 30 degrees.
Revista:
IEEE SENSORS JOURNAL
ISSN:
1530-437X
Año:
2023
Vol.:
23
N°:
2
Págs.:
1592 - 1600
This article presents a method for determining the vacuum state in vacuum circuit breakers (VCBs) based on the Pirani approach. The method relies on exploiting eddy currents (ECs) over a low-cost sheet of iron (target) embedded inside the VCB, which is fixed to the shield of the VCB by a single welding point. This target and its assembly are compatible both with a low-cost manufacturing process and also with the specific fabrication and operating conditions of the VCB. ECs are used both for heating and for monitoring the temperature variation of the target during its cooling. A model based on two exponential kernels has been developed to identify the vacuum state from the cooling kinetics. An experimental setup has been developed to assess the potential performance of the method. The proposed approach is able to discriminate pressures below and above the reliable operating point in VCBs of 10(-1) Pa.
Revista:
SENSORS
ISSN:
1424-8220
Año:
2022
Vol.:
22
N°:
21
Págs.:
8451 - *
The conventional way of studying corrosion in marine environments is by installing corrosion coupons. Instead, this paper presents an experimental field study using an unattended corrosion sensor developed on the basis of ultrasound (US) technology to assess the thickness loss caused by general atmospheric corrosion on land close to the sea (coastal region). The system described here uses FPGA, low-power microcontroller, analog front-end devices in the sensor node, and a Beaglebone black wireless board for posting data to a server. The overall system is small, operates at low power, and was deployed at Gran Canaria to detect the thickness loss of an S355 steel sample and consequently estimate the corrosion rate. This experiment aims to demonstrate the system's viability in marine environments and its potential to monitor corrosion in offshore wind turbines. In a day, the system takes four sets of measurements in 6 hour intervals, and each set consists of 5 consecutive measurements. Over the course of 5 months, the proposed experiment allowed for us to continuously monitor the corrosion rate in an equivalent corrosion process to an average thickness loss rate of 0.134 mm/year.
Revista:
APPLIED SCIENCES
ISSN:
2076-3417
Año:
2022
Vol.:
12
N°:
2
Págs.:
808
The ultrasound technique is a well-known non-destructive and efficient testing method for on-line corrosion monitoring. Wall thickness loss rate is the major parameter that defines the corrosion process in this approach. This paper presents a smart corrosion monitoring system for offshore wind turbines based on the ultrasound pulse-echo technique. The solution is first developed as an ultrasound testbed with the aim of upgrading it into a low-cost and low-power miniaturized system to be deployed inside offshore wind turbines. This paper discusses different important stages of the presented monitoring system as design methodology, the precision of the measurements, and system performance verification. The obtained results during the testing of a variety of samples show meaningful information about the thickness loss due to corrosion. Furthermore, the developed system allows us to measure the Time-of-Flight (ToF) with high precision on steel samples of different thicknesses and on coated steel samples using the offshore standard coating NORSOK 7A.
Revista:
ELECTRONICS
ISSN:
2079-9292
Año:
2021
Vol.:
10
N°:
1
Págs.:
57
In this paper, we propose a flexible Fog Computing architecture in which the main features are that it allows us to select among two different communication links (WiFi and LoRa) on the fly and offers a low-power solution, thanks to the applied power management strategies at hardware and firmware level. The proposed Fog Computing architecture is formed by sensor nodes and an Internet of Things (IoT) gateway. In the case of LoRa, we have the choice of implementing the LoRaWAN and Application servers on the cloud or on the IoT gateway, avoiding, in this case, to send data to the Cloud. Additionally, we have presented an specific setup and methodology with the aim of measuring the sensor node's power consumption and making sure there is a fair comparison between the different alternatives among the two selected wireless communication links by varying the duty cycle, the size of the payload, and the Spreading Factor (SF). This research work is in the scope of the STARPORTS Interconnecta Project, where we have deployed two sensor nodes in the offshore platform of PLOCAN, which communicate with the IoT gateway located in the PLOCAN premises. In this case, we have used LoRa communications due to the required large distance between the IoT gateway and the nodes in the offshore platform (in the range of kilometers). This deployment demonstrates that the proposed solution operates in a real environment and that it is a low-power and robust approach since it is sending data to the IoT gateway during more than one year and it continues working.
Revista:
MICROELECTRONICS JOURNAL
ISSN:
0026-2692
Año:
2014
Vol.:
45
N°:
10
Págs.:
1311 - 1318
This paper presents an area-efficient variable-length FFT algorithm for DVB-T2 receivers. A matrix-based approach is used to achieve a novel radix 2(8) algorithm that fulfils the DVB-T2 specifications. Several implementation techniques are proposed to apply in order to reduce the FFT core area, such as a variable datapath scaling approach, a memoryless CORDIC algorithm and an efficient FIFO implementation. The layout of the FFT processor is designed in XFAB 0.18 mu m CMOS technology. The proposed variable-length processor occupies a layout area of 6.75 mm(2). Compared with the DVB-T2 designs in the literature, the proposed FFT processor presents the most area-efficient implementation. Furthermore, it provides a good power efficiency in the lower modes.
Revista:
ELECTRONICS LETTERS
ISSN:
0013-5194
Año:
2010
Vol.:
46
N°:
15
Págs.:
1088 - 1089
Comparison at implementation level of several pipeline-SDF radix 2(k) FFT architectures is proposed in order to obtain efficient algorithms for DVB-T2 receivers. In the analysis, the area and performance of the algorithms are compared. A variable datapath optimisation has been added to the comparison.