A HEO satellite with a 10 GHz downlink would be tons of fun. We've been using these along with surplus DSS dishes using a Funcube as an IF to create really cheap 10 GHz receivers that work well!
http://www.ebay.com/itm/LNB-Single-0-1dB-Satellite-Universal-Edition-Full-HD...
Watch the wrap...
Mike
On 9/4/2013 1:43 PM, Gus wrote:
Truly.
However, to include operators with modest shacks, you need to allow operation on modes A, B and/or J. A satellite operating on 24.0 GHz won't be of interest to the average ham. Not until the average ham has 24.0 GHz capable antennas, feedlines, amplifiers, transceivers, etc, in his shack.
On 09/04/2013 11:31 AM, Bryce Salmi wrote:
Yea but increasing frequency helps with that. With directional antennas the satellite would need attitude control which would benefit greatly from miniaturization. For the most part, miniaturization would come from incorporating systems on chips. Most op amps and microcontrollers are much smaller than their packages so including those systems on a single die in a single package are capable of massive savings in space. This is what made smart phones even possible .
Gus 8p6sm@anjo.com wrote:
On 09/04/2013 02:26 AM, Brenton Salmi wrote: Let's put it in another possible context: Create an extremely dense and reliable LEO platform in cube-sat form that weigh's a fraction of AO-40's weight using today's high-density components/systems and create a reliable and feature rich HEO cubesat. The only problem with this, is that certain components can't be miniaturized. Example: Antennas. And HEO satellites need more sophisticated antennas. Pity the cube-sat idea didn't finish up with a ten INCH cube... -- 73, de Gus 8P6SM Barbados, the easternmost isle.
73, Mike, N1JEZ "A closed mouth gathers no feet"