Abstract
The commercial production of generators in the USSR, Russia and foreign countries began several decades ago. During this period, a great number of different circuits—from the simplest ones based on two lamps or transistors and a RC circuit to complex industrial generators—were proposed. Certainly, it is impossible to consider them in one book. Therefore, we have to limit this overview only to some industrial oscillators from the leading world manufacturers, and only to those of them that, in the author’s opinion, represent the key milestones in the history of generators.
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- 1.
The oscillator circuits presented below are simplified; therefore, the author is not liable for their proper functioning and metrological characteristics.
References
Model 200A. Audio Oscillator: Instruction and Operational Manual. Hewlett—Packard Co. http://www.hparchive.com/Manual/HP-200A-Manual-1951.pdf (2011). Accessed 21 Nov 2011
Model 209A. Sine/Square Oscillator: Instruction and Operational Manual. Hewlett—Packard Co. http://www.hparchive.com/Manual/HP-209A-Manual-sn-818.pdf (2011). Accessed 21 Nov 2011
Low-Frequency Signal Generator G3-118: Technical Description And Operating Manual. Circuit Diagrams and Documentation. Measuring Equipment: Oscillators. http://www.qrz.ru/shemes (2013). Accessed 11 July 2013
Low-Frequency Signal Generator G3-112: Technical Description and Operating Manual. Circuit Diagrams and Documentation. Measuring Equipment: Oscillators. http://www.qrz.ru/shemes (2013). Accessed 11 July 2013
Low-Frequency Signal Generator GS-50: Technical Description and Operating Manual. Circuit Diagrams and Documentation. Measuring Equipment: Oscillators. http://www.qrz.ru/shemes (2011). Accessed 21 Nov 2011
Tyurin, V.A.: Oscillators of Audio and Ultrasonic Frequency Signals G3-33 and G3-34: Guidance Manual. Kazan State University, Kazan (2006)
Rybin, Yu.K., Litvak, E.S.: A stabilized harmonic RC oscillator with low nonlinear distortions. Izvestiya vuzov SSSR. Ser.: Instrum. Eng. 11, 57–60 (1980)
Certificate of Authorship USSR, IPC3 G 05 F 1/44. AC Voltage Stabilizer/Yu.K. Rybin, V.P.: Budeykin; applied by the Tomsk Polytechnic University—No. 3269249/24-07; applied on 24.02.75; published on 15.10.82, Bulletin No. 38
Certificate of Authorship USSR, IPC3 H 03 B 5/26, H 03 L 5/00. Harmonic Signal Oscillator/Yu.K. Rybin, L.N. Gertsiger, M.S.: Roytman—No. 2849350/18-09; applied on 10.12.79; published on 30.11.82, Bulletin No. 44
The Programmable Source of Calibrated AC Voltages F7090/M.S. Roytman, Yu.K. Rybin, V.M.: Sergeev, etc.//Summary Report of the All-Union Meeting “High-Precision Measurement of Electrical Values of AC, Voltage, Power, Energy and Phase Angle, dated November 24, 1982, Leningrad, L., 1982. pp. 32–33
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Rybin, Y.K. (2014). Practical Designing of Measuring Signal Generators. In: Measuring Signal Generators. Signals and Communication Technology. Springer, Cham. https://doi.org/10.1007/978-3-319-02833-0_9
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DOI: https://doi.org/10.1007/978-3-319-02833-0_9
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