DX University – Visalia 2012 1 Station & Antenna Considerations Ned Sterns AA7A.

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Presentation transcript:

DX University – Visalia Station & Antenna Considerations Ned Sterns AA7A

DX University – Visalia Radios Antennas Other Station Elements Station Layout Station & Antenna Considerations Topics

DX University – Visalia Critical receiver requirement Selectivity Dynamic range Split frequency operation Advanced capability Second receiver or sub-receiver Diversity reception Panadapter displays Software Defined Radios (SDR) Station & Antenna Considerations Radio Equipment - Receivers

DX University – Visalia Roofing Filters Limits power applied to non-linear receiver elements Digital Signal Processing Bandpass filters Notch filters Noise Reduction algorithms Noise Blanking Station & Antenna Considerations Receiver Selectivity

DX University – Visalia Station & Antenna Considerations Receiver Dynamic Range One simple definition: Blocking Dynamic Range Copy a weak signal simultaneously with a high level, off-channel signal Ratio signal amplitudes when degradation of weak signal starts RadioBDR, dB Elecraft K3139 Ten Tec Orion II136 Yaesu FTdx9000D127 ICOM IC ICOM IC-756PROIII101

DX University – Visalia Power level Heat is the root to most component failures Consider operating radios well below maximum power levels Modulation Quality – How good (or wide) is your signal? Undesirable sidebands – clicks or ɸ noise will get you noticed Reduce audio distortion – audio processing may result in higher average power but can result in lower understandability Consider covering all the operating modes Traditional modes (CW, SSB, AM, RTTY) are native New modes (e.g. PSK, JT65) may require external modems Station & Antenna Considerations Transmitter - Critical Requirements

DX University – Visalia Requirements related to effective DXing Pattern matching propagation path to DX Pattern reducing effects of interference Efficiency General characteristics Efficient antennas are likely to be narrowband Antennas are the best investment in your station Reliability can be more important than performance Higher antennas work DX better than lower ones Station & Antenna Considerations Antennas

DX University – Visalia Transmit antennas Verticals Dipoles (as high as possible) Receive antennas Beverages Loops (ground-dependent antennas) Flag/pennants (ground-independent antennas) 4-square short verticals Station & Antenna Considerations Low frequencies antennas (160 & 80 m)

DX University – Visalia Monoband antennas Full size: Yagi 1 Shortened: Moxon 2 Multi-band antennas Fixed Hexbeam 1 Quad 4 Spider beam 2 Multiband yagi 5 Log periodic 3 Adjustable StepIR Station & Antenna Considerations Antennas - HF

DX University – Visalia DX University – Visalia 2012 Grounding Nearby lightning strike protection Shock hazard mitigation Audio ground loop reduction Filtering Harmonic suppression BCI reduction Audio Transducers Headphones / speakers Microphones PC CODECs Station & Antenna Considerations Other Station Elements

DX University – Visalia DX University – Visalia 2012 Reduce stress and strain Organization of equipment Neck strain reduction Minimize eye strain Lighting Must see the radio knobs Must see keyboards Ambient sound Fan noise Clunking relays Posterior comfort Station & Antenna Considerations Station Layout Considerations

DX University – Visalia DX University – Visalia 2012 Station & Antenna Considerations AA7A Station – 10 Feb 2012 (at 1646 Z ) HF Radio #1 HF Radio #2 HF Amplifier #2 HF Amplifier #1 HF Amplifier #3 HF Logging Computer mon #1 HF SDR #3 SDR Display Rotor Display 12-channel Audio Mixer HF Logging Computer mon #2 HF Wattmeter

DX University – Visalia DX University – Visalia 2012 Station & Antenna Considerations AA7A Station – Operator Focus Primary Focus Secondary Focus

DX University – Visalia DX University – Visalia 2012 Happy Hunting Station & Antenna Considerations