Comment Re:Cell phone jammer? (Score 1) 135
If you work for a government and pay me, I'll be happy to answer that question.
If you work for a government and pay me, I'll be happy to answer that question.
Everything is shared with the Amateur community, but we have some terms that protect our land-mobile market.
The software is Open Source, but the hardware is going to be slightly less than Open Hardware, and we will be careful not to mismarket it.
It's going to start out as a $500 SDR with not enough software, and you get to write it. That is with U.S. manufacture and U.S. parts sourcing.
And sorry, I don't know about the HackRF apps.
Michael's a good guy, but HackRF One is not a communications transceiver. He made it for hacking RFID. The receiver isn't that good and the transmitter is not FCC legal when amplified.
We're not giving them everything they need to clone the device. It's Open Source software and respects your freedom, but the hardware is under a bit less than Open Hardware licensing. None of the terms effect Amateur Radio, but they do protect our land-mobile market, which is where we expect most of the money to come from.
Actually, I led the fight to continue to disallow encryption on the Amateur bands just last year. I evangelized a lot of people to comment in opposition, and even dragged a reluctant ARRL into commenting when their original intent was not to do so. You'll notice that I am cited in the FCC ruling. It was only proposed to allow it for emergency communications, anyway.
You already have many different radio services where encryption is allowed. The shared, self-regulating nature of Amateur Radio makes encryption a disaster, as does the international nature. You can't self-regulate when you can't understand their communications. Nobody wants to see dxpeditions and HF communicators in general treated as spies by various nations, more than they already are.
We're perfectly happy with how useful Amateur Radio is, and it is not denial. Use the Internet and other services when you need encryption.
The first-use-in-commerce date is actually earlier than the date on the patents. Thus, the patent would not be expired, but could no longer be enforced.
Nobody will be able to use this in the ham bands without a ham license, or in the LMR without the appropriate licenses.
I did not mean to imply that anyone should do anything at all that they aren't legally allowed to do. Type-approval is about FCC requirements for the device, rather than the licensee. Land-mobile licenses just take money and ham licenses are easy enough to get that the regularly-abled don't really have an excuse not to get one. And one can also get the FCC Part 5 Experimental license.
Astonishingly, Amateur type-acceptance is only for receivers: that they don't operate as cellular scanners, and external amplifiers: that they don't amplify CB. Not for transmitters! After all, it's supposed to be an experimental service.
We have had softmodems on HF for a long time, so introducing mode and protocol flexibility to VHF/UHF isn't really anything new. The users will work out the interoperability issues among themselves, and if they want to switch to a new mode next year, they can.
The first-use-in-commerce dates on AMBE 1000 would result in the patents becoming un-enforcable about a week after Hamvention.
I'm all for using Morse on the air. Just not on the test. I did specify a paddle input for this device.
I guess you could buy transverters from Down East Microwave. This particular chip can transmit up to 1.3 GHz, but we've not tested the receiver at that frequency yet, and we're off the data sheet once we exceed 1 GHz.
The hardware would do it, you would have to write software and maybe MyHDL code for the gate array.
If we manufacture this in the U.S. and source all of the parts in the U.S. and take a reasonable margin, it will come out to $500. We don't want to go to Asian manufacturing and parts or make a lower-cost edition with some parts removed until the initial version is salable. We figure that it will take a lot of time for us to learn about Asian manufacturing, and we don't want you to have to wait.
I haven't really been thinking about scanners. Yes, I guess you could make some really good Open Source software for scanning with this. We could make a receive-only version. It would just be less parts on the board. Unfortunately it would have cellular-lockout, at least until we can fix that portion of ECPA. It's not like cell phones are unencrypted any longer.
You will be able to do direct-sequence spread spectrum within about 1 MHz. Frequency-hopping spread-spectrum is also possible, but is limited by the speed at which the PLL locks.
This is meant to be an entire FCC type-approved transceiver with spurious emissions low enough to amplify to the full legal limit for the band. You can use it with GNURadio, but you can also run the entire system stand-alone through its on-board computer and gate-array without GNURadio. HackRF has turned out not to be a very good receiver, and is not meant to be a legal transmitter regarding spurious emissions. USRP + some daughter boards might work similarly, and have higher performance in some ways, but cost a lot more and don't have low enough power drain to go handheld.
The first version is marketed as test equipment. Which gets us around the various type-acceptance issues. The second version is focused on end-users rather than developers and will be type-certified for either Amateur or one of the land-mobile bands.
Enzymes are things invented by biologists that explain things which otherwise require harder thinking. -- Jerome Lettvin