RFI Characterisation of Karoo Array Telescope Structure

1. RFI Characterisation of Karoo Array Telescope Structure P. Gideon Wiid (PhD) Howard C. Reader Riana H. Geschke Stellenbosch University December 2008

2. Where do I fit in? • RFI - Radio Frequency Interference • Extremely low RFI needed • Earth-bound RFI, e.g. direct and indirect lightning strikes • Scale model measurements • Computational modelling Fig 1: Lightning strike

3. What am I doing and how? Correctly define and minimise RFI on KAT structure: • Lightning policies – RAO sites • RFI measurements – XDM @ HartRAO • CEM Modelling and Measurement – KAT scale models • MoM w.r.t. lightning, shielding • Result analysis for RFI minimisation Fig 2: ADM design (June 2008)

4. What have I done? 1 • Site Visits to: • Astron, LOFAR & Westerbork in Netherlands • Jodrell Bank & Manchester University in UK • Shielding of enclosures • Measurements at HartRAO on XDM • Importance of loops Fig 3: Westerbork and HartRAO Observatories

5. What have I done? 2 • 2nd Model - 1/40th scale as per XDM • Focus: structure, conduit and soil • CADFEKO and CST verified by measurement • Memory and license limitations • Eskom load shedding • CHPC runtimes 4 days, 1 day • Towards ADM for KAT-7 • Specific concerns re RFI on ADM Fig 4: XDM model with saltwater

6. What have I done? 3 • 3rd 1/20th Scale model – Willem Esterhuyse • June 2008 ADM KAT-7, simplified • Measurement – anechoic chamber • Geometry replicated in CADFEKO • CHPC runtimes / unknowns • CADFEKO verified by measurement • MoM investigations: lightning, shielding Fig 5: ADM Scale Model

7. What have I done? 4 • Indirect lightning strike – EM plane wave • Direct lightning strike – current injection • Consider LDC, shielding • Electric field strengths • Current densities • Runtimes / file-sizes • CHPC and SU HPC Fig 6: Excitations on ADM model with LDC

8. What have I done? 5 • EM Plane Wave • Current density • Magnetic flux cutting closed conducting loop • Top & bottom struts “hot” • Other positions • Edges “hot” • Shadowing • Bearings Fig 7: Current densities on dish struts

9. What have I done? 6 • Current injection • Current distribution struts • Injection source loop influences levels • Shielding – top closed • Raised structure: “hot” • Cables entering: “hot” • Partial shields for cost • Feedback to SKA Fig 8: Electric field around and inside structure

10. Where am I going? • Project plan: 2009 • CADFEKO Investigations: • Lightning protection over bearings • Pedestal shielding, earthing interfaces • Result analysis: cost-effective RFI solutions • Feedback to SKA offices, influencing design

11. Confucius says • Confidence built for CADFEKO usage • E-fields, Current density • Shielding, earthing interfaces • LDC layout and design • LDC over bearings • Cost-effective solutions

12. Conclusions • Confidence built for CADFEKO usage • E-fields, Current density • Shielding, earthing interfaces • LDC layout and design • LDC over bearings • Cost-effective solutions

13. Are we done yet? Whether you believe you can do a thing or not, you are right. - Henry Ford Acknowledgements • SA SKA for bursary and travel grants • Eskom TESP for bursary grants • CST for use of Microwave Studio • EMSS for CADFEKO license and usage • Mel van Rooyen at EMSS for CADFEKO support • Willem Esterhuyse for enormous mechanical insights in scale model • Prof. DB Davidson, Danie Ludick and Evan Lezar for help in setting up simulations and CADFEKO on CHPC and SU HPC • CHPC and SU HPC for usage of facility