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Typically, to construct random number sequence generators the semiconductor noise diodes are used. One of the most important parameters is the amplitude distribution of the output pulses of noise diodes. This is due to the fact that a change in the amplitude distribution depending on fluctuations in ambient temperature can lead to a decrease in the rate of generation of a random numerical sequence, as well as to the appearance of patterns in it. In this work, silicon noise diodes of ND102L, ND103L, and ND104L models are studied. It was found that an increase in temperature leads to a decrease in the average value of amplitude of noise pulses and its standard deviation from temperature. This dependence is linear in the temperature range of 248-278 K, and when the temperature rises to 308 K it remains almost constant. It has been established that the amplitude distributions of noise diode pulses have a pronounced maximum, which shifts toward higher amplitude values with lowering of temperature. The magnitude of this peak decreases with lowering of temperature.

Key words: noise diode, noise pulses repetition rate, noise pulses amplitude
Published in: Integral electronics elements
Bibliography link: Zenevich А. O., Kochergina O. V., Buslyuk V. V., Fedosyuk D. N., Luschiy D. A. Investigation of the dependence of the amplitude characteristics of noise diodes on temperature. Proc. Univ. Electronics, 2025, vol. 30, no. 1, pp. 32–39. https://doi.org/10.24151/1561-5405-2025-30-1-32-39

Andrey O. Zenevich
Belarusian State Academy of Communications (Belarus, 220114, Minsk, F. Skorina st., 8/2)

Olga V. Kochergina
Belarusian State Academy of Communications (Belarus, 220114, Minsk, F. Skorina st., 8/2)

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Information about the publication

UDK: 621.382
Publication type: Scientific article
DOI: 10.24151/1561-5405-2025-30-1-32-39
RISC id: BULUKN

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