Incumbent earth stations operating in the 3700-4000 MHz range are entitled to have eligible space station operators provide a turnkey solution to transition them out of the band to the upper 200 megahertz of the 3.7-4.2 GHz Band. All of an earth station’s actual, reasonable, and necessary transition costs, for such transitions are reimbursable. As an alternative to having the space station operator conduct the transition, earth station operators may choose to accept a pre-determined per-earth station lump sum – still being worked on by the Federal Communications Commission’s (“FCC’s”) Wireless Telecommunications Bureau – for all their earth stations as sole compensation for moving out of the band themselves regardless of what solution is pursued after the transition, including moving to another band or off the radiofrequency spectrum altogether. (Previously, we covered the Commission’s schedule for the C-Band transition in detail.) The trick, however, is that, to qualify for reimbursement or the lump sum option, the earth stations must be “incumbent.” On Monday, July 6, 2020, the International Bureau (“Bureau”) issued a preliminary list of incumbent earth stations that would qualify for reimbursement or the lump sum. The Bureau, in the accompanying Public Notice, provided ten (10) days for interested persons to comment on the list, until Thursday, July 16.

Continue Reading C-Band Earth Stations: The FCC Made the List; It’s Worth Checking It Twice

On Thursday, February 6, in a speech at the Information Technology and Innovation Foundation, Federal Communications Chairman Ajit Pai outlined his proposal for the realignment of 3.7-4.2 GHz, the so-called C-Band. Later in the day, the FCC website posted a summary of the Chairman’s proposals, and Republican Commissioners Carr and O’Rielly released statements in support of the initiative. A draft order is expected sometime today, February 7, which will fill in a lot of gaps missing from the broad brushstrokes the Chairman outlined.

Continue Reading Pai Offers Highlights of His 3.7-4.2 GHz Band Proposal; Particulars Presently Forthcoming