GB3EDN Edinburgh 23 cm Beacon Update

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Presentation transcript:

GB3EDN Edinburgh 23 cm Beacon Update Brian Flynn GM8BJF

GB3 EDN Specifications Output frequency 1296.990 MHz Output power ~5 watts Keying F1A Callsign only once per minute

GB3EDN Location University of Edinburgh Kings Buildings Campus Antenna on top of the Faraday Building (four storey block) IO85JW91

GB3EDN History Original hardware Installed in 1977 Licence received and turned on in 1978 Run continuously with 2 short outages since then Hardware very reliable Simple! ~32 years in virtually continuous operation!

Googlemap

Coverage Originally licensed for 2 x Corner reflector NE and NW Good coverage of Central belt and north Clear path to north sea

Beaconspot.eu spots since 2008

GB3ANG Spots

GM6BIG spots

GB3CSB Spots

Existing hardware

Existing TTL Keyer

Corner Reflectors: 1978 -1986

Existing Hardware

Antenna 2010

Antenna just after installation

Close-up of antenna

Another view

General View

Motivation for new Design Improved frequency accuracy Improved stability Reduced power consumption Existing hardware draws ~5 amps at 12 V and uses a linear power supply regulator Improved keying and QRA locator added

New design – Initial thoughts Want to generate signal from accurate standard Generally 5.0, 10.0, 12.4 or 15.0MHz Not harmonically related to 1296.990 MHz Ideally want to phase lock VHF xtal to standard

DDS techniques In the last 15 years DDS ICs have become available from a few manufacturers notably Analog devices Normally used to generate arbitrary frequencies from a VHF clock typically 100 MHz Output frequency set by a 32 bit tuning word Output frequency step = 100MHz /2^32=23mHz!

DDS continued DDS allows the generation of virtually any frequency from a frequency standard The big drawback is that the outputs are relatively noisy with both spurs and phase noise Use of DDS to replace a crystal oscillator not the way to go.

Reverse DDS (RDDS) An alternative is to use the DDS chip as the divider in a conventional PLL

Advantages of RDDS Can use high reference frequency Phase noise and spur performance is good Narrow PLL bandwidth keeps output clean FSK can be implemented easily by changing tuning word UK Microwave group produce a PCB to implement circuitry!

Complete Block Diagram

UK Microwave RDDS PCB (Top)

UK Microwave RDDS PCB (Bottom)

G4DDK2001 PCB (Top)

G4DDK2001 PCB (Bottom)

G4DDK2001 Circuit

Hardware

Demonstration of Hardware

The End Questions?