15,184 research outputs found

    Production Test Technique For RF Circuits Using Embedded Test Sensors

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    A single test stimulus and a simple test configuration with embedded envelope detectors are used to estimate all the specification values of interest for an RF circuit under test in an integrated circuit chip. Envelope detectors are deployed as sensors inside the circuit under test. Where more than one circuit is in an RF device in the integrated circuit, each RF circuit in the device may have its own envelope detector. A signal having, for example, time-varying envelopes is used as an optimized test stimulus. The test uses the time-varying and low frequency envelope of the test response. The circuit's response under test to the optimized test stimulus has features highly correlated with the specifications of interest. The test stimulus is optimized for a set of training circuits, and each training circuit in the set is selected to provide one of a spectrum of test responses to the stimulus.Georgia Tech Research Corporatio

    A programmable microsystem using system-on-chip for real-time biotelemetry

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    A telemetry microsystem, including multiple sensors, integrated instrumentation and a wireless interface has been implemented. We have employed a methodology akin to that for System-on-Chip microelectronics to design an integrated circuit instrument containing several "intellectual property" blocks that will enable convenient reuse of modules in future projects. The present system was optimized for low-power and included mixed-signal sensor circuits, a programmable digital system, a feedback clock control loop and RF circuits integrated on a 5 mm × 5 mm silicon chip using a 0.6 μm, 3.3 V CMOS process. Undesirable signal coupling between circuit components has been investigated and current injection into sensitive instrumentation nodes was minimized by careful floor-planning. The chip, the sensors, a magnetic induction-based transmitter and two silver oxide cells were packaged into a 36 mm × 12 mm capsule format. A base station was built in order to retrieve the data from the microsystem in real-time. The base station was designed to be adaptive and timing tolerant since the microsystem design was simplified to reduce power consumption and size. The telemetry system was found to have a packet error rate of 10<sup>-</sup><sup>3</sup> using an asynchronous simplex link. Trials in animal carcasses were carried out to show that the transmitter was as effective as a conventional RF device whilst consuming less power

    Dependable Digitally-Assisted Mixed-Signal IPs Based on Integrated Self-Test & Self-Calibration

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    Heterogeneous SoC devices, including sensors, analogue and mixed-signal front-end circuits and the availability of massive digital processing capability, are being increasingly used in safety-critical applications like in the automotive, medical, and the security arena. Already a significant amount of attention has been paid in literature with respect to the dependability of the digital parts in heterogeneous SoCs. This is in contrast to especially the sensors and front-end mixed-signal electronics; these are however particular sensitive to external influences over time and hence determining their dependability. This paper provides an integrated SoC/IP approach to enhance the dependability. It will give an example of a digitally-assisted mixed-signal front-end IP which is being evaluated under its mission profile of an automotive tyre pressure monitoring system. It will be shown how internal monitoring and digitally-controlled adaptation by using embedded processors can help in terms of improving the dependability of this mixed-signal part under harsh conditions for a long time

    Antenna Design for Semi-Passive UHF RFID Transponder with Energy Harvester

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    A novel microstrip antenna which is dedicated to UHF semi-passive RFID transponders with an energy harvester is presented in this paper. The antenna structure designed and simulated by using Mentor Graphics HyperLynx 3D EM software is described in details. The modeling and simulation results along with comparison with experimental data are analyzed and concluded. The main goal of the project is the need to eliminate a traditional battery form the transponder structure. The energy harvesting block, which is used instead, converts ambient energy (electromagnetic energy of typical radio communication system) into electrical power for internal circuitry. The additional function (gathering extra energy) of the transponder antenna causes the necessity to create new designs in this scope

    Communication system for a tooth-mounted RF sensor used for continuous monitoring of nutrient intake

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    In this Thesis, the communication system of a wearable device that monitors the user’s diet is studied. Based in a novel RF metamaterial-based mouth sensor, different decisions have to be made concerning the system’s technologies, such as the power source options for the device, the wireless technology used for communications and the method to obtain data from the sensor. These issues, along with other safety rules and regulations, are reviewed, as the first stage of development of the Food-Intake Monitoring projectOutgoin

    Concepts for Short Range Millimeter-wave Miniaturized Radar Systems with Built-in Self-Test

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    This work explores short-range millimeter wave radar systems, with emphasis on miniaturization and overall system cost reduction. The designing and implementation processes, starting from the system level design considerations and characterization of the individual components to final implementation of the proposed architecture are described briefly. Several D-band radar systems are developed and their functionality and performances are demonstrated

    Testing of Analog and RF Circuits using Embedded Sensors

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    Testing of on - chip RF and microwave circuits has always been a challenge to the test engineers. Since the emergence of System - on - a - Chip (SoC), characterization and test de vel op ment is time - consuming, they contribute to a significant part of the manufacturing cost. Moreover, test development of RF and microwave circuits requires years of experience and expertise. In this paper, we propose to use built - in - test in the form of specific sensors. Instead of testing the devices specifically for certain performance metrics, the output values of the sensors, which are usually DC or a very low frequency signal, can b e used to get a quick and accurate estimate of the behavior of the devic e under test (DUT). For a relatively low - yielding process, which is usually the case for RF and microwave circuits, significant number of faulty devices can be identified without even performing the standard manufacturing test on the devices. Moreover, the se sensors can also be used for on - line test. In this paper, we also propose an algorithm to optimally place the sensors at the output of a system - under - test and use the sensor output to get an estimate of the specifications of the system - under - test. Using this method, specifications can be estimated within an accuracy of ± 3% of its actual value
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