A Low-Cost Wireless TV Audio Transceiver
Wireless communication is rapidly growing, making it possible to design wireless network systems that can constantly collect, analyze, evaluate, and validate our environment to get more control of the factors that influence it. With over a decade of intensive research and development, wireless sensor network technology has been emerging as a viable solution to many innovative applications. Various audio wireless consumer devices have been developed over the years. But these wireless TV headphones use Bluetooth technology which comes with a number of drawbacks; high power consumption, high cost, short distance coverage, and a limited number of users at a time. In this project, we have developed a wireless TV audio transceiver (transmitter to multiple receivers) using Arduino and nRF24L01 module. The nRF24L01 transceiver module uses the 2.4 GHz band and it can operate with band rates from 250 kbps up to 2 Mbps. If used in closed space and with lower band rate its range can reach up to 100 meters. The Wireless audio system operates at Radio Frequency (RF) signals. Specifically, it utilizes the IEEE802.15.4 standard to transmit the audio signals. The system is designed to transmit and receive the audio signal about 2.4Ghz frequencies. The system is powered using a 9Vdc battery. The Wireless audio system utilizes the IEEE802.15.4 Radio Frequency (RF) standard to transmit the audio signals. IEEE standard 802.15.4 offers the fundamental lower network layers of a Wireless Personal Area Network (WPAN) and focuses on low-cost, low-power communication between devices. The system will be designed to transmit and receive the audio signal using the 2.4Ghz band. The transmitter converts the input analog signal from the TV audio socket to a digital signal using the microcontroller. The digital signal will then be sent to the nRF24L01 module which modulates it using Gaussian Frequency Shift Keying (GFSK) modulation scheme and transmits it at 2.4GHz. The receivers use GFSK modulation to demodulate the digital signal received and convert it to an analog signal using the microcontroller. The analog signal is amplified by the LM386 circuit where users can individually modulate the volume of sound of their preferences. LM386 is a low voltage audio amplifier and frequently used in battery-powered music devices
Year of publication: |
2020
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Authors: | Mirugwe, Alex |
Publisher: |
[S.l.] : SSRN |
Subject: | Fluggesellschaft | Airline | Niedrigpreisstrategie | Low-cost strategy | Funktechnik | Radio engineering | Mobile Anwendung | Mobile application | Mobilkommunikation | Mobile communications |
Saved in:
freely available
Extent: | 1 Online-Ressource (62 p) |
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Type of publication: | Book / Working Paper |
Language: | English |
Notes: | Nach Informationen von SSRN wurde die ursprüngliche Fassung des Dokuments June 18, 2018 erstellt |
Other identifiers: | 10.2139/ssrn.3617328 [DOI] |
Source: | ECONIS - Online Catalogue of the ZBW |
Persistent link: https://www.econbiz.de/10014096529
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