Мақаланы E-mail арқылы жіберу Generating and studying amplitude-frequency modulation signals using Rigol devices
- Авторлар: Lemeshko N.1, Gorelkin M.2
-
Мекемелер:
- АО «Корпорация «Комета»
- ООО «РШ Тех»
- Шығарылым: № 2 (233) (2024)
- Беттер: 136-151
- Бөлім: Test and measurement
- URL: https://journals.eco-vector.com/1992-4178/article/view/629565
- DOI: https://doi.org/10.22184/1992-4178.2024.233.2.136.151
- ID: 629565
Дәйексөз келтіру
Ашық рұқсат
Рұқсат берілді
Аннотация
The article discusses the issues of practical use of amplitudefrequency modulation (AFM) signals, their generation and measurement of characteristics. An example of generating AFM signals using Rigol DSG3136B-IQ generator and studying their properties using Rigol MSO8204 oscilloscope and Rigol RSA5056-TG spectrum analyzer is given.
Толық мәтін
Авторлар туралы
N. Lemeshko
АО «Корпорация «Комета»
Хат алмасуға жауапты Автор.
Email: nlem83@mail.ru
начальник отдела
РесейM. Gorelkin
ООО «РШ Тех»
Email: mikhail.gorelkin@rsh-tech.ru
менеджер по продукту
РесейӘдебиет тізімі
- Ширман Я.Д., Багдасарян С.Т., Маляренко А.С. и др. Радиоэлектронные системы. Основы построения и теория / Под ред. Ширмана Я.Д. М.: Радиотехника, 2007. 512 с.
- Баскаков С.И. Радиотехнические цепи и сигналы. М.: Высшая школа, 2003. 462 с.
- Гоноровский И.С. Радиотехнические цепи и сигналы. М.: Советское радио, 1971. 672 с.
- Румянцев К.Е. Радиоприемные устройства. М.: Академия, 2006. 336 с.
- Першин В.Т. Основы радиоэлектроники и схемотехники. Учебное пособие. Ч. 2. – Минск: Белорусский государственный университет информатики и радиоэлектроники, 2006. 152 с.
- Фомин А., Викторов Д. Метрология и радиоизмерения. Красноярск: Сибирский федеральный университет, 2016. 508 с.
- Справочник инженеров по радиомониторингу / Под ред. Слободнюка П.В. Киев, 2012. 720 с.
- Левшина Е.С., Новицкий П.В. Электрические измерения физических величин. Измерительные преобразователи. Л.: Энергоатомиздат, 1983. 320 с.
Қосымша файлдар
Қосымша файлдар
Әрекет
1.
JATS XML
2.
Fig.1. FFT result for a signal with AFM with single-tone amplitude and frequency modulation, fA = 1 kHz and fCh = 4 kHz
Жүктеу (9KB)
3.
Fig.2. FFT result for a signal with AFM with single-tone amplitude and frequency modulation, fA = 4 kHz and fCh = 1 kHz
Жүктеу (9KB)
4.
Fig.3. FFT result for a signal with AFM with single-tone modulation in amplitude and frequency, fA = fЧ = 4 kHz
Жүктеу (9KB)
5.
Fig.4. FFT result for a signal with AFM with single-tone modulation in amplitude and frequency, with fA = fCh = 4 kHz, m = M = 0.8
Жүктеу (9KB)
6.
Fig.5. FFT result for the signal: a – with single-tone FM, fCh = 2 kHz, m = 5; b – with AFM at fA = 500 Hz; c – with AFM at fA = 2 kHz
Жүктеу (287KB)
7.
Fig.6. FFT results obtained with frequency modulation by a smooth signal at Δf = 100 kHz: a – in the absence of AM superposition; b – when superimposing polyharmonic AM with a maximum frequency of 20 kHz
Жүктеу (290KB)
8.
Fig.7. Block diagram of a signal detector with AFM
Жүктеу (22KB)
9.
Fig.8. Block diagram of a modulator that generates a signal with amplitude-frequency modulation
Жүктеу (411KB)
10.
Fig.9. Schematic diagram of a modulator that generates a signal with AFM
Жүктеу (229KB)
11.
Fig. 10. Rigol DSG3136B-IQ AM generator settings tab
Жүктеу (19KB)
12.
Fig. 11. Installation for studying signals with AFM in the time domain: a – diagram; b – photograph
Жүктеу (60KB)
13.
Fig. 12. Installation for studying signals with AFM in the frequency domain: a – diagram; b – photograph
Жүктеу (51KB)
14.
Fig. 13. Oscillogram of a signal with AFM in the persistence mode with a sweep duration of the order of one period
Жүктеу (388KB)
15.
Fig. 14. Cursor measurements along the envelope to calculate the AM depth: a – for minimum; b – for maximum
Жүктеу (2MB)
16.
Fig. 15. The result of statistical measurements for a signal with AFM
Жүктеу (397KB)
17.
Fig. 16. Results of measurements of the occupied signal bandwidth with AFM
Жүктеу (355KB)
18.
Fig. 17. Spectrogram of a signal with AFM at sinusoidal AM and FM
Жүктеу (366KB)
