The frequency was first assigned by the FCC in 1963 when it was made available to school systems to transmit educational TV between multiple schools. The spectrum band was called Instructional Television Fixed Service (ITFS). The band was divided into twenty channels and could transmit a TV signal up to about 35 miles. I grew up in a school system that used the technology and from elementary school onward we had a number of classes taught on the TV. Implementing the technology was expensive and much of the spectrum was never claimed.
In 1972 the FCC recognized the underuse of the spectrum and allowed commercial operators to use the bands of 2150 to 2162 MHz on an unlicensed basis for pay-TV transmissions to rooftop antennas. The spectrum could only carry a few TV channels and in the 1970s was used in many markets to transmit the early version of HBO and Nickelodeon. This spectrum band was known as Multipoint Distribution Service (MDS) and also was good for about 35 miles.
Reacting to pressure from cellular companies, the FCC reallocated eight additional channels of the spectrum for commercial use. Added to the MDS spectrum this became known as Multichannel Multipoint Distribution Service (MMDS). At the time this displaced a few school systems and anybody using the spectrum had to pay to move a school system to another workable channel. This spectrum was granted upon request to operators for specific markets.
In 1991 the FCC changed the rules for MMDS and allowed the channels to be used to transmit commercial TV signals. In 1995 any unused MMDS spectrum was sold under one of the first FCC auctions, which was the first to divide service areas into the geographic areas known as Basic Trading Areas (or BTAs) that are still used today. Before this auction, the spectrum was awarded in 35-mile circles called Geographic Service Areas (GSAs). The existing GSAs were left in place and the spectrum sold at auction had to work around existing GSAs.
The FCC started getting pressure from wireless companies to allow for the two-way transmission of data in the frequency (up to now it had been all one-way delivery to a customer site). In 2005 the FCC changed the rules and renamed the block of spectrum as Broadband Radio Service (BRS). This added significant value to licenses since the spectrum could now be repositioned for cellular usage.
At this point, Clearwire entered the picture and saw the value of the spectrum. They offered to buy or lease the spectrum from school systems at prices far lower than market value and were able to amass the right to use a huge amount of the spectrum nationwide. Clearwire never activated much of the spectrum and was in danger of losing the rights to use it. In 2013 Sprint purchased Clearwire, and Sprint is the only cellular company using the spectrum band today.
Today the spectrum band has all sorts of users. There are still school districts using the spectrum to transmit cable TV. There are still license holders who never stopped using the 35-mile GSA areas. There are still MMDS license holders who found a commercial use for the spectrum. And Sprint holds much of the spectrum not held by these other parties.
The FCC is wrestling in the NPRM with how to undo the history of the spectrum to make it more valuable to the industry. Education advocates are still hoping to play in the space since much of the spectrum sits idle in rural America (as is true with a lot of cellular and other mid-range spectrum). The other cellular carriers would like to see chunks of the spectrum sold at auction. Other existing license holders are fighting to extract the biggest value out of any change of control of the spectrum.
The challenge for repositioning this spectrum is complicated because the deployment of the spectrum differs widely today by market. The FCC is struggling to find an easy set of rules to put the genie back in the bottle and start over again. In terms of value for 5G, this spectrum sits in a sweet spot in terms of coverage characteristics. Using the spectrum for cellular data is probably the best use of the spectrum, but the FCC has to step carefully to do this in such a way as to not end up in court cases for years disputing any order. Reallocating spectrum is probably the most difficult thing the FCC does and it’s not hard to see why when you look at the history of this particular block of spectrum and realize that every block of spectrum has a similar messy past.