It slowed down a bit, and then we quickly learned that maintaining the perfect 50hz wasn’t actually necessary anymore. Few people still have clocks that depend on it
I’m not talking about the incident in Romania, but in Germany.
A shipyard needed some wires over a river deactivated and that caused an overload cascade, because the river was the border between two providers who had different assumptions about the capacity of the power lines connecting them.
Computer systems in general, however, will start acting very squirrelly outside of an approved MHz range. Wall warts and power supplies can handle only so much deviation from the norm. It’s why high-end UPS systems do power conditioning to provide a pure sine wave.
It slowed down a bit, and then we quickly learned that maintaining the perfect 50hz wasn’t actually necessary anymore. Few people still have clocks that depend on it
I’m not talking about the incident in Romania, but in Germany.
A shipyard needed some wires over a river deactivated and that caused an overload cascade, because the river was the border between two providers who had different assumptions about the capacity of the power lines connecting them.
oh damn, ain’t something. I will be looking into that, thank you!
Clocks, true.
Computer systems in general, however, will start acting very squirrelly outside of an approved MHz range. Wall warts and power supplies can handle only so much deviation from the norm. It’s why high-end UPS systems do power conditioning to provide a pure sine wave.
No worries we’re talking like 49.9995 hz