PCSAT FREQUENCY COORDINATION REQUEST:

The mission of our PCsat is unique in the Amateur Satellite Service as it
is designed to support the text messaging and position tracking needs of
mobiles and handhelds only and links into the terrestrial internet system. 
As such, the link margins to user OMNI antennas require downlinks in the
2 meter band.

For international operation, we will need a frequency(s) in the agreed 
satellite sub band of 145.8 mhz.  This frequency can hopefully be shared 
with a number of other UI digipeating satellites in work... But we also 
hope to use the exclusive North American Continent wide 144.39 APRS frequency 
for occassional downlinks of brief one-line text pages to remote mobile 
travelers.  The following design summary should provides the background.

UPLINKS AND RECEIVE GAINS:  Up and downlinks fall into several different 
classes based on ERP and receiver antenna gain as shown below.  The column 
labeled Standby-receive gain is for the user who is not aware of, nor 
optimized for satellite reception.  For example, an HT in a pocket, or 
a mobile parked under trees.
  
             ERP  ERP Rcv Rcv Rcv  
             UHF  VHF UHF VHF STBY 
 USERS       (W)  (W) dBi dBi dBi  Applications
   --------- --- ---- --- --- ---  ------------------------------
   HANDHELDS   3    5   3   3  -6  Sailboats, Hikers, Wilderness
   MOBILES    70  100   5   5  -6  Boats, Remote Travelers
   HOME STNS 700 1000  13  13      Not intended for PCsat
  
 NETWORK
   IGATE RCV            7   5      Omni Internet receive site
   MSG NODE   70  100              Internet to user UPLINK site   
   COMMAND   700 1000  13  13      US Naval Acadmy Ground Station
  
MISSIONS:  Since several other amateur satellties have provided imaging
and file store- and-forward for the last several years, PCsat concentrates
on the current trend towards personal real-time wireless messaging using 
UI digipeating.  In this context, the following list prioritizes these needs.

 1) Handheld/Mobile message uplink to Internet (emergency and routine)
 2) Handheld/Mobile message downlink delivery from Internet
 3) Handheld/Mobile to Handheld/Mobile real-time communications
 4) Nationwide Bulletin delivery to all users
 5) Handheld/Mobile GPS position tracking to internet
 6) GPS tracking of buoys, telemetry devices, wildlife, expeditions
 7) Other UI digipeating applications (TBD)
 8) Message Store-n-forward (limited special applications only)

FUNDAMENTAL ASUMPTIONS:
 
 1) Optimum ALOHA CSMA channel effeciency is about 18% due to collisions
 2) VHF links have a 9 dB advantage over UHF links (omni to omni)
 3) 1200 baud AFSK has a 7 dB advantage (measured) over 9600 baud FSK
 4) T/R delays render 9600 only twice as fast as 1200 for short bursts
 5) UHF uplinks require wide bandwith to avoid doppler (- 4 dB)
 6) UHF downlinks require user tuning throughout pass (not desired)
 7) There are available off-the-shelf handheld and mobile radios now
    that can serve as stand-alone digital satellite transceivers
 
REQUIREMENTS/CONSTRAINTS Design Drivers:  The following are some of
the obvious first-order alignments of requirements to hardware and
frequencies.  From these, then, we determined the optimum trade-offs to
arrive at our final design and frequency requirements.

 1) MSG delivery to HT in Standby requires best possible downlink 
    (1200 baud VHF).  Igate uplink is relatively unconstrained.
 2) MSG receipt from HT requires best possible uplink (1200 baud VHF).  
    Downlink to internet is relatively unconstrained.
 3) Continent wide Bulletin Delivery requires downlink on existing 
    dedicated terrestrial APRS frequencies (144.39 in USA and 144.8
    in Europe (both 1200 baud).
 4) HT/Mobile real-time messaging requires same up/downlink baudrate
 5) GPS HT/Mobile tracking is relatively unconstrained.
 6) Low power GPS tracking devices requires best uplink (1200 baud VHF)
    and the uplink must not be used by any other satellite uplink to
    avoid unintentional interference to other systems.
 7) Other UI digipeating applications should be crossband full duplex
    and should use same up/downlink baud rates
 8) Store-n-forward (rare) is unconstrained with equal baud rates
 9) Spread of applications among multiple receivers to minimize
    collisions is desired.
10) Reundancy and Backups are desired.
11) UHF downlinks are of little value due to poor link budget and doppler
12) UHF Uplinks can work without doppler tuing with a 30Khz Satellite RCVR
13) KISS applies (Keep it Simple, Stupid)
   
HARDWARE ALIGNMENT:  Using the above as the basis, we chose a pair of 
dual-port KPC-9612 TNC's to satisfy as many of the above requirements as 
possible.   Each KPC-9612 can cross relay from either of its two inputs 
to its two outputs.  Since we only have two transmitters on VHF for best 
downlink, we output both the 1200 and 9600 baud data to the same transmitter
(with appropriate PTT/DCD cross strapping).  ALthough we need two 2m 
downlinks, two 2m uplinks and two 70cm uplinks, we have gone ahead and 
penciled in some obvious suggestions, so that the uniqueness of the choices
is quite obvious.
 
USERS             UPLINK            TNC              DOWNLINK
----------------  -------         ------------       ---------------------
                                  KPC-9612 #1
HT-to-HT          145.825 ------> 1200 Baud -*-----> 145.825 (ITU Subband)
                                     \ /     |
                                     / \     |
Mobile-to-Mobile  435.250 ------> 9600 Baud -*
 
                                  KPC-9612 #2
Low Pwr Trackers  VHF-V2  ------> 1200 Baud -*-----> 144.39  (over USA )
                                     \ /     |               
                                     / \     |
Igate Paging      UHF-U2  ------> 9600 Baud -*

 
Notice that the Igates monitor both downlinks to capture every packet
heard and feed to the worldwide APRServe internet linked network.

Our AMSAT/ITU Frequency request is:

1) VHF-A = 145.825 as a shared international UI digipeating frequency 

2) VHF-B = 144.390 downlink over North America Only.  This frequency is
   already dedicated for APRS by TAPR, ARRL, AMSAT and their Canadian 
   counterparts.  Downlink on this frequency even though it is outside
   the Gentlemen's agreed satellite subband is a unique opportunity 
   welcomed by all current users in North America.

3) VHF-C = Any 2m satellite uplink frequency hopefully not shared with 
      any other satellite uplink so that we do not QRM any other sats.
      We have no objections if this frequeny is another satellite
      downlink.  THis will be our command uplink channel and reserved
      special uplink channel for very special worldinterest events.

3) UHF-A = 435.250 for all 9600 baud 50w mobiles.

4) UHF-B = Any other 20 KHz frequency in the 435-437 MHz band.


Bob Bruninga, WB4APR@amsat.org