1 / 20

Carrier and Symbol Synchronization

Carrier and Symbol Synchronization. Hardware Software Co-design Final Project R91943045 楊進發 R91943050 楊雅嵐 R91943068 陳宴毅. Outline. Introduction Clock error & Frequency error Carrier Recovery & Sampling Recovery Implement Result Conclusion Reference. Introduction.

adila
Download Presentation

Carrier and Symbol Synchronization

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. Carrier and Symbol Synchronization Hardware Software Co-design Final Project R91943045 楊進發 R91943050 楊雅嵐 R91943068 陳宴毅

  2. Outline • Introduction • Clock error & Frequency error • Carrier Recovery & Sampling Recovery • Implement • Result • Conclusion • Reference

  3. Introduction • Wireless communication has received much attention from researchers working on personal communication systems in recent years. • We have observed that in a digital communication system, the output of the demodulator must be sampled periodically, once per symbol interval, in order to recover the transmitted information.

  4. Introduction (cont’) • Since the propagation delay from the transmitter to the receiver is generally unknown at the receiver, symbol timing must be derived from the received signal in order to synchronously sample the output of the demodulator. • The propagation delay in the transmitted signal also results in a carrier offset, which must be estimated at the receiver if the detector is phase-coherent.

  5. Frequency error • Caused by mismatch of carrier and Doppler shift ω0+ Δω ΔωT ω0

  6. Clock error • Caused by clock signal mismatch and Doppler shift → Correct sampling clock --> Incorrect sampling clock

  7. Carrier Frequency Recovery • Carrier recovery is to synchronize the locally generated carrier with the carrier contained in the received input. • This can eliminate crosstalk between I and Q channel data, thus increasing output SNR.

  8. Carrier Frequency Recovery (cont’) • QPSK Decision-Directed Costas Loop

  9. Timing Recovery • To find the correct timing for sample-and-hold or integrate-and-dump devices in the receiver.

  10. Timing Recovery (cont’) • Sample-Derivative Timing Recovery Loop

  11. Implement • QPSK Transceiver Signal

  12. Implement (cont’) • Carrier frequency offset and timing offset

  13. Implement (cont’) • Carrier frequency recovery

  14. Implement (cont’) • Sampling Recovery

  15. Result ․QPSK Transceiver Signal

  16. Result (cont’) • Carrier frequency offset and timing offset

  17. Result (cont’) • Carrier frequency recovery

  18. Result (cont’) • Sampling Recovery

  19. Conclusion • Carrier recovery and timing synchronization are two topics that have been thoroughly investigated over the past three decades. • Symbol synchronization is required in every digital communication system which transmits information synchronously.

  20. Reference • Jen-Shi Wu, Ming-Luen Liou, His-Pin Ma and Tzi-Dar Chiueh, “A 2.6V 44MHz all-digital QPSK direct-sequence spread-spectrum transceiver IC,” IEEE J. Solid-State Circuits, vol. 32,No. 10, Oct. 1997. • John G. Proakis, Digital Communications, McGraw Hill. • R. L. Peterson, Introduction to Spread Spectrum Communications, Prentice Hall, 1995. • Baseband Communication VLSI Lab.

More Related