this post was submitted on 28 May 2024
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Nostalgia

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nostalgia noun nos·tal·gia nä-ˈstal-jə nə-, also nȯ-, nō-; nə-ˈstäl- 1: a wistful or excessively sentimental yearning for return to or of some past period or irrecoverable condition also : something that evokes nostalgia

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1. Respectful Nostalgia Share nostalgic content and memories respectfully. Avoid offensive or insensitive references that may be hurtful to others.

2. Relevant Nostalgia Posts should focus on nostalgic content, including memories, media, and cultural references from the past. Stay on topic to preserve the nostalgic theme of the community.

3. Source Verification If you share nostalgic media or content, provide accurate sources or background information when possible.

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6. Quality Content Strive to post high-quality content that sparks nostalgia and meaningful conversations among members.

7. Moderation Guidelines

By adhering to these rules and guidelines, we can create a welcoming and enjoyable space to relive nostalgic moments together. If you have any questions or suggestions, feel free to reach out to the moderators. Thank you for sharing your nostalgia responsibly!

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[–] AstralPath@lemmy.ca 71 points 5 months ago (11 children)

Can you imagine the power bill after running all those CRTs? Damn.

[–] qjkxbmwvz@startrek.website 32 points 5 months ago (10 children)

Googling around it seems a 21" draws around 100W, which isn't as much as I thought; it's kinda a florescent light with more steps. A florescent backlit LCD doesn't use a whole lot less, and a modern 30-something inch LED backlit uses, as far as in an tell, about 1/3 that. So, for typical sized monitors, only ~70W more for CRT.

In contrast, the GPU wars mean that (I think?) power consumption in gaming desktops has gone up somewhat substantially


a 500W PSU was fairly beefy in 2003 (I think), whereas 1000W or more is pretty standard for a gaming computer now (obviously it's not drawing rated power, but assuming headroom % is roughly the same...).

My completely unsubstantiated guess would be that a LAN party setup as pictured would draw more power at idle, but a modern LAN party would draw more under load.

[–] MystikIncarnate@lemmy.ca 15 points 5 months ago (7 children)

I know enough about power systems to know that we're going to hit a hard limit on how much max power we're going to be able to plumb into a computer soon.

A single North American power circuit is approximately 120v and limited to 15A. The numbers wiggle a little from place to place, I've seen many that are running 115v or even closer to 110v. The 15A limit is not quite accurate either, since it's not recommended to load a circuit more than 80% for any continuous load, so your realistic maximum continual draw would be around 12A.

Some newer homes are being built with 20A, but most homes are still generally using 15A breakers.

At 120v, on a 15A circuit, you shouldn't consistently pull more than 12A, or 1440W. The line will max out at 1800W when the breaker/fuse will start to trigger.

So as power supplies hit 1200 to 1400 watts, you'll need to ensure that nothing else on the circuit will draw any significant power. A few displays and whatnot are fine, but with a 1200w PSU, you can't exceed 240w of additional draw while operating within the recommendations.

There are a few solutions to this, the obvious one is move to 20A, which can draw 1920W within the recommended power draw for the circuit, so you could have an 1800w system and about 120w of additional items before hitting the recommended limits, and 480w of total overhead before the breaker goes. The downside is that such circuits require thicker cables in-wall (12awg when 14awg is far more common in homes).

One option I'm aware of that nobody seems to consider is that in NA, the power delivered to the home is approximately 240v split-phase. 240v is generally only used for things like stovetops and ranges, electric dryers, water heaters, resistive heating in forced air furnaces, and air conditioning/heat pump systems. Though, it is entirely possible to convert a simple outlet to 240v. To be safe, you will need to get new receptacles, but you can reuse the wires already in the wall for 240v. I believe the NEMA 6-15R is the one that's rated for 240v operation in NA, and it's not dissimilar to the standard NEMA 5-15R that is the typical "North American" receptacle. However, a standard plug (aka a NEMA 5-15P) will not fit into the 240v receptacle. Any outlets on the same circuit would need to be changed so a 120v only device does not get plugged into the 240v receptacle. You can wire it for 240v at 15A which can provide up to 2880W of power without rewiring the house.

The trick will be to find a NEMA 6-15P to C13 connection for the PC and peripherals, and double checking that they will accept 240v power (all monitors and whatnot need to be set up to accept 240v power). On older power supplies, this is a simple switch on the outside of the PSU, though newer units will be switched, so they will detect the input power automatically.

I'm not recommending anyone does that, but if you do, talk to an electrician to ensure you're complying will all local ordinances.

Despite that, it is an option that most don't seem to consider.

Personally, I need to have some rewiring done in my residence and I'm going to see if I can get a dedicated 240v 20A single receptacle circuit installed for my computer, with the appropriate receptacles and everything.

To note: most 240v connections also have a neutral line (like what you would find with an oven or dryer), which the NEMA 6 receptacles do not have, they are 240v only. This, along with the fact that most 240v receptacles are rated for 30A+, makes them generally very large. The NEMA 6-15R and NEMA 6-20R are the 15/20A versions of 240v AFAIK, and they're not really any larger than a standard receptacle.

[–] BlackAura@lemmy.world 2 points 5 months ago

Also efficiency.

All PSUs have efficiency curves and are rated differently. You can't always trust the published numbers either.

Your 750W PSU might pull closer to 937W from the wall when you're asking it for a full load, if it's rated at 80% efficiency. Those ratings are not linear though and usually have a sweet spot around 80% of max load.

I.e. It will be most efficient at around 600W (80% of the 750W max load). At higher loads it will be even worse, possibly drawing closer to 1000W from the wall.

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