Results 161 to 170 of about 25,518 (216)
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A temperature-compensated bridge circuit
1993 IEEE Instrumentation and Measurement Technology Conference, 2002A bridge circuit is developed for canceling temperature drifts of resistive sensors. It consists basically of two half bridges with a common reference arm, each one followed by a differential amplifier. The gains of the amplifiers are adjusted such that the half-bridge output voltages due to temperature variation of sensors cancel each other.
M. Matsuno +3 more
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Various Behaviors of Wien-Bridge Circuit and Quasi-Wien-Bridge Circuit in Different Situations
2012 Spring Congress on Engineering and Technology, 2012Detail behaviors of Wien-bridge circuit and three more similar circuits are revealed by adopting new loop gain expression and proper analyses which including complex-domain analysis and phasor analysis. An amplifier is also introduced to testify the realistic loop gain in phasor form for each oscillator.
Hongbing Yu, Qixing Chen
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Did Wheatstone build a bridge? (Wheatstone's bridge circuit)
IEEE Engineering in Medicine and Biology Magazine, 2006This paper discusses the connection of Charles Wheatstone with the bridge circuit. It investigates whether Wheatstone invented the bridge or not. Upon the development of the electric telegraph by Samuel F.B. Morse in 1832, the need to measure resistance accurately arose.
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Resistive bridging fault simulation of industrial circuits
Proceedings of the conference on Design, automation and test in Europe, 2008We report the successful application of a resistive bridging fault (RBF) simulator to industrial benchmark circuits. Despite the slowdown due to the consideration of the sophisticated RBF model, the run times of the simulator were within an order of magnitude of the run times for pattern-parallel complete-circuit stuck-at fault simulation.
Piet Engelke +3 more
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IEEE Transactions on Industrial Electronics and Control Instrumentation, 1969
This paper describes a bridge circuit which was designed to perform a comparison between a temperature which is the controlled variable in a feedback control system, and a reference input or set point value. The feedback system was designed to control a certain heat transfer process.
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This paper describes a bridge circuit which was designed to perform a comparison between a temperature which is the controlled variable in a feedback control system, and a reference input or set point value. The feedback system was designed to control a certain heat transfer process.
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Circuits, handles, bridges and nets
1991This paper introduces two new structural objects for the study of nets: handles and bridges. They are shown to provide sufficient, although not necessary, conditions of good behaviour for general ordinary nets, as well as a new characterisation of structural liveness and structural boundedness for the subclass of Free Choice nets. This characterisation
Javier Esparza, Manuel Silva
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Microcones configured with full-bridge circuits
Soil Dynamics and Earthquake Engineering, 2012Abstract Small-diameter microcones have been widely used for the characterisation of soil properties in the field and in the calibration chamber because the smaller probe may require a smaller penetrometer capacity and a smaller calibration chamber. As the cone size decreases, the area required for the installation of the strain gauges also decreases,
Hyung-Koo Yoon, Jong-Sub Lee
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Bridge and Open Circuit Defect Properties
EDFA Technical Articles, 2002Abstract CMOS IC failure mechanisms are of three general types: bridge defects, open circuit defects, and parametric related failures. This article summarizes bridge and open-circuit defect properties and provides references for further self-study.
Anne Gattiker +2 more
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On Bridging Faults in ECL Circuits
The Fifth International Conference on VLSI Design, 2005With the recent achievement of lower power and higher densi- ties, ECL technology is txpected to be used widely in high per- formance digital circuits. Recent investigations have revealed that bridging faults can be a major failure mode in ICs. This paper presents a detailed analysis of bridging faults in ECL. Eflects of bridging faults between logical
S.M. MenIon +2 more
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