1 / 24

Modeling of Unwanted and Blocking Interference Modes

Modeling of Unwanted and Blocking Interference Modes. European Communications Office Jean-Philippe Kermoal 05 October 2010. Interfering Modes. Unwanted Emissions Case. Blocking Case. Interference Calculations. Interference Criteria. Interfering Modes. Unwanted and Blocking Signals.

fadhila
Download Presentation

Modeling of Unwanted and Blocking Interference Modes

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. Modeling ofUnwanted and Blocking Interference Modes European Communications Office Jean-Philippe Kermoal 05 October 2010

  2. Interfering Modes • Unwanted Emissions Case • Blocking Case

  3. Interference Calculations Interference Criteria Interfering Modes Unwanted and Blocking Signals

  4. Interferer emission mask fI Unwanted Emissions • Victim Receiver Bandwidth fv • Interfering System Interfering emission mask fI

  5. Victim Link Frequency

  6. Victim Link / Victim Receiver Interference Criterion Reception bandwidth

  7. Interfering Link Frequency

  8. Interfering Link/Interfering transmitter Power Emission Mask

  9. Interfering Link/Interfering transmitter/Unwanted emissions mask Default value erroneous value See the following presentations...

  10. Interfering Link/Victim receiver -> Interfering transmitter Path Att = + 32.4 + 20 x log (f (MHz)) + 20 x log (d (km)) Att = + 32.4 + 20 x log (900 MHz) + 20 x log (10 km) Att = + 111.5 dB

  11. Simulations... 10 km IRSS Unwanted = P in the victim bandwidth + Ge + Gr – Att (free space)IRSS Unwanted = 12 dBm + 0 dB + 0 dB – 111.5 dBIRSS Unwanted = - 99.5 dBm

  12. Results N = -110 dBmIRSS Unwanted = -99.5 dBmI/N = -99.5 – (-110) = 10.5 dB ( Calculated by SEAMCAT)Interference Criterion was: I/N = 0 ( Input to SEAMCAT)

  13. Results... I/N=0dB Pe = 22.5 dBm

  14. Blocking • Victim Receiver Bandwidth Rejection of the receiver fv fI • Interfering System Interferer fI

  15. Blocking: 3 Modes User Defined (dB): Rejection at the receiverAttBlocking = BlockUD Protection Ratio (dB):AttBlocking = BlockPR + C/(N+I) + 3 dB Sensitivity Mode (dBm): Maximum Acceptable Value of PowerAttBlocking = BlockSens (dBm) – Sensitivity (dBm) + C/(N+I)

  16. But not so different • Protection Ratio:Interfering Blocking Level = Pe + Ge + Gr – Att – AttBlockingWhere: AttBlocking = BlockPR + C/(N+I) + 3 dB • If C/(N+I) = - 3 dB AttBlocking = BlockPR - 3 dB + 3 dB = BlockPR • ....equivalent to User Defined Mode • If C/I = 0 dBBroadcast PR Mode...

  17. Example

  18. fV fI Blocking Mask Should be defined at the frequency of the Interferer Att blocking = 50 dB (e.g. Defined in ETSI Standards)

  19. Simulations IRSS Blocking= Pe + Ge + Gr – Att (free space) – Att blockIRSS Blocking= 33 dBm + 0 dB + 0 dB – 111.5 dB – 50 dBIRSS Blocking = - 128.5 dBm

  20. Results IRSS Blocking Level = - 128.5 dBmN = -110 dBmI/N = 0 dB (Criterion) always met

  21. Question? • Can I make simulation for unwanted and blocking in the same workspace?

  22. Question: Can I make simulation for unwanted and blocking in the same workspace? • 2 Interference Criteria / 2 runs

  23. Question: Can I run simulations for unwanted and blocking in the same workspace in a single run? If the interference criteria are not the same... You can compensate this when defining the mask (unwanted or blocking) Blocking: PR mode + Criterion: C/I=0 dB Unwanted: Criterion C/I=10 dB Remove 10 dB from blocking mask Criterion C/I=10 dB

  24. Questions? • Thanks for your attention

More Related