1 / 26

Portable RF Multimedia Transmitter

Portable RF Multimedia Transmitter. Group 58 Michael Bieniek, Mikhail Zakharov, Consultant : Dr. Vincent Gaudet. Background. Vast majority of consumer media content is stored digitally on computers. Consumers would like to see their media content on a TV. Common existing methods.

yon
Download Presentation

Portable RF Multimedia Transmitter

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Portable RF Multimedia Transmitter Group 58 Michael Bieniek, Mikhail Zakharov, Consultant: Dr. Vincent Gaudet

  2. Background • Vast majority of consumer media content is stored digitally on computers. • Consumers would like to see their media content on a TV.

  3. Common existing methods

  4. Background • Every TV has a wireless tuner to receive broadcast TV • Not all channels occupied by stations • FCC regulation allows for licence-free low power broadcast within the UHF band

  5. Purpose • Investigate feasibility of building a low-power portable transmitter, operating within the UHF band. • Living room equivalent of FM transmitters for listening to music in the car

  6. Advantage • Minimize hardware costs • Scalability: point to multipoint • Utilize existing infrastructure • Ease of setup

  7. Design Objectives • Wirelessly broadcast audio and video. • Receive on a TV. • Tune to a UHF channel.

  8. Broadcast method

  9. Design Objectives • Support commonly used digital media storage formats (H.264, MPEG 2, MPEG 4, etc…). • USB for power and PC interfacing. • Portable form-factor ready. Reference: Dell Unveiled USB Digital TV Tuner [online], Available: http://www.mr-gizmo.com/tag/digital-tv-tuner/

  10. Design

  11. Design: User PC

  12. Prototype User Interface

  13. GStreamer: Video Pipeline

  14. Design: Digital Media Processor

  15. Digital Media Processor Prototype Platform: Beagleboard Ref: Beagleboard.org

  16. Design: RF Transmission

  17. RF Modulator • Input: NTSC video and BTSC audio. • Output: UHF modulated signal. • Freescale MC44BS373CA. • Capable of modulating on channels 14-69 (471.25 MHz – 801.25 MHz).

  18. BTSC Stereo Encoder • Input: 2-channel analog audio. • Output: Stereo encoded audio. • Freescale MC44C402.

  19. Filter Filter Response Implementation

  20. Amplifiers • Two stage amplifier boosts the power level of the RF modulated signal. • Total simulated gain of 44 dB • High IP3 points and unconditionally stable. Mini-Circuits RF Amplifier

  21. Prototype PCB

  22. Prototype Implementation

  23. Testing and Results

  24. Testing and Results Spectrum Analyzer Output Parameters

  25. Commercialization Proposal • Use digital modulation techniques (ATSC). • Improve output power. • Minimize size. • $38/unit. Reference: Dell Unveiled USB Digital TV Tuner [online], Available: http://www.mr-gizmo.com/tag/digital-tv-tuner/

  26. Questions?

More Related