Today I'm remembering one of the coolest space things ever: Voyager 2's S-band radio receiver has been broken for 44 years, and yet we can still talk to it.
Back in 1978 the primary receiver failed, and the team discovered the backup receiver had a faulty capacitor in the PLL circuit that adjusted for Doppler shift. Since then, Voyager 2's receive bandwidth has been much narrower, and the band-pass window wanders back and forth by a few hundred Hz with temp changes.
A lesser team would have declared the spacecraft lost after concluding the receivers were no longer working. But the badasses running Voyager figured out that they could make the Deep Space Network sweep the range of frequencies where V2's receiver _could_ be listening, then lock onto an adjusted frequency ground-side to compensate for the wonky receiver.
And so, for the last 44 years, every couple weeks, the DSN does a search to find where Voyager 2's receiver is hanging out today.
What I'm saying is, the Voyager project team at JPL are ridiculously resourceful, tenacious people, and deserve to be celebrated more.
This ramble brought to you by today's news that the project team once again pulled a rabbit out of a hat, and figured out a way to stretch Voyager 2's dwindling power budget by several more _years_ before having to power down more science instruments.
Half a century later, still teaching those amazing machines new tricks.
@danderson Here's some perspective on the brilliance of the DSN gang. The signal Voyager sends home is from a 23 watt transmitter. By the time we receive it, it's one tenth of a billionth of a trillionth of one watt. That's 10 to the minus 16th.
If that doesn't make your head spin, you weren't reading carefully.
Dave Anderson
W6KME