Title :
High-resolution analog quadrature sine oscillator for lock-in amplifiers applications
Author :
Garcia-Romeo, D. ; Martinez, P.A. ; Calvo, B. ; Medrano, N.
Author_Institution :
Group of Electron. Design, (GDE), Univ. de Zaragoza, Zaragoza, Spain
Abstract :
This paper introduces a high-precision sine quadrature oscillator based on single resistor-controlled oscillator configuration. It presents advantageous features such as independent control of the oscillation condition regarding to its oscillation frequency, a wide and precise frequency variation and amplitude stability in the whole operating range. To control frequency tuning, it includes an innovative technique which adds R-2R based Digital-to-Analog Converters as control elements. This new approach overcomes the frequency tuning limitation presented by single resistor-controlled oscillators due to tolerance limitations of passive elements. Experimental results validate the proposed configuration, confirming its enormous possibilities in a wide field of applications, such as our driving application, especially, in those related to lock-in amplifiers.
Keywords :
amplifiers; oscillations; variable-frequency oscillators; amplitude stability; frequency tuning control; high-precision sine quadrature oscillator; high-resolution analog quadrature sine oscillator; independent control; lock-in amplifiers applications; oscillation frequency; passive elements; single resistor-controlled oscillator configuration; tolerance limitations; Frequency conversion; Operational amplifiers; Oscillators; Resistors; Spectral analysis; Tuning; Analog quadrature sinusoidal oscillator; high precision; sensor actuation system; tunable frequency;
Conference_Titel :
SENSORS, 2014 IEEE
Conference_Location :
Valencia
DOI :
10.1109/ICSENS.2014.6985055
