Difference between revisions of "2642: Meta-Alternating Current"

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(Explanation: Explaining why an inverter isn't then invertible, the true opposite and when a single invert/rectify might commonly happen...)
(Explanation: .73^7)
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In electronics, {{w|direct current}} is a constant flow of electrons from a power source to something being powered, before doubling back along the circuit. It is commonly used for battery-powered appliances. {{w|Alternating current}}, on the other hand, frequently reverses the flow of electrons, and is commonly used for longer-distance use (such as from the power plant to an outlet).
 
In electronics, {{w|direct current}} is a constant flow of electrons from a power source to something being powered, before doubling back along the circuit. It is commonly used for battery-powered appliances. {{w|Alternating current}}, on the other hand, frequently reverses the flow of electrons, and is commonly used for longer-distance use (such as from the power plant to an outlet).
  
This comic proposes a humorous interspersion, ''Meta-Alternating Current'', which uses a series of adapters to "alternate" between DC and AC current. This is funny because since typical {{w|power inverter}} efficiency is 90%, and maximum {{w|bridge rectifier}} efficiency is 81.2%, an {{w|extension cord}} made of them would lose about 27% power per such pair.
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This comic proposes a humorous interspersion, ''Meta-Alternating Current'', which uses a series of adapters to "alternate" between DC and AC current. This is funny because since typical {{w|power inverter}} efficiency is 90%, and maximum {{w|bridge rectifier}} efficiency is 81.2%, an {{w|extension cord}} made of them would lose about 27% power per such pair. The "extension cord" shown would yield about 11% of its input power.
  
 
The title text bemoans that an inverter, which converts direct current to alternating current, does not work in the other direction, as a layman's interpretation of the word "inverter" might appear. Rather, a separate device, a {{w|rectifier}}, also pictured in the comic, must be used for this second conversion.
 
The title text bemoans that an inverter, which converts direct current to alternating current, does not work in the other direction, as a layman's interpretation of the word "inverter" might appear. Rather, a separate device, a {{w|rectifier}}, also pictured in the comic, must be used for this second conversion.

Revision as of 08:36, 7 July 2022

Meta-Alternating Current
It's always bothered me that you can't cancel out an inverter by putting a second inverter after it.
Title text: It's always bothered me that you can't cancel out an inverter by putting a second inverter after it.

Explanation

Ambox notice.png This explanation may be incomplete or incorrect: Created by a CHAIN OF INVERTERS - Please change this comment when editing this page. Do NOT delete this tag too soon.
If you can address this issue, please edit the page! Thanks.

This comic replaced No One Was Hurt as comic 2642 after the former was taken down from xkcd's website.

In electronics, direct current is a constant flow of electrons from a power source to something being powered, before doubling back along the circuit. It is commonly used for battery-powered appliances. Alternating current, on the other hand, frequently reverses the flow of electrons, and is commonly used for longer-distance use (such as from the power plant to an outlet).

This comic proposes a humorous interspersion, Meta-Alternating Current, which uses a series of adapters to "alternate" between DC and AC current. This is funny because since typical power inverter efficiency is 90%, and maximum bridge rectifier efficiency is 81.2%, an extension cord made of them would lose about 27% power per such pair. The "extension cord" shown would yield about 11% of its input power.

The title text bemoans that an inverter, which converts direct current to alternating current, does not work in the other direction, as a layman's interpretation of the word "inverter" might appear. Rather, a separate device, a rectifier, also pictured in the comic, must be used for this second conversion.

Common understanding of "inverting" would be to turn upside-down, or reverse the input polarity in the output (something that would be easily done at near-zero inefficiency by just 'crossing' (without connecting between) the wires coupling the inputs and outputs. Two such cross-overs would indeed restore the original electrical supply. In the conversion from DC to AC it is instead an active circuit that periodically inverts, and then uninverts, the effective polarity – with a specific frequency, and usually a voltage conversion, to conform to some AC need such as using a car battery to power a standard household device designed and built for use on a mains supply. A rectifier is a nominally passive circuit that accepts either polarity (e.g. at any given moment of an AC phase) and produces a single definite polarity as output, possibly smoothed out by a buffering capacitance or with additional components to attain a given voltage and amperage.

It may in fact be the case that a campsite use of a rectifying device intended for home use (e.g. a standard phone charger that down-converts household AC to a given DC) requires it to be plugged into an inverter itself powered from a battery system (DC to AC), more inefficiently than a single converter (with the correct voltage/amperage re-regulation) might accomplish the task. Further chaining this into more inverters/rectifiers would normally not be considered.

Transcript

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Discussion

And today, we are reminded that Randall used to be a physicist (or at least has a physics degree). Not worth mentioning in the article, but while inverters can't reverse each other, transformers can. (Has Randall done the transformer/Transformer pun yet as an excuse to mock the movies?) Nitpicking (talk) 11:10, 7 July 2022 (UTC)

I haven't picked up the physics reference yet. I see electrical engineering here. Randall strikes me as somebody who would study physics given the opportunit, though. It's notable that this webcomic started while Randall was in college, if I recall right. 172.70.230.75 11:58, 7 July 2022 (UTC)

Long distance links, especially those between separate unsynchronized grids, use high voltage DC. There is a 2,000-mile link in China running at 1 MV. Arachrah (talk) 11:32, 7 July 2022 (UTC)

That's because at great distances, relatively high frequency AC loses a lot of ("active" = actually useful) power as ... reactive power, I think (didn't learn the terminology in English, unit seems right though). A typical grid has a lot of generators and load. A long distance connection results in a phase shift according to the transmission time (speed of light in medium x distance) in about the order of magnitude of the AC period (usually somewhere between 1/10 to 1/60 seconds) wastes a portion equal to the sine of the phase shift angle (up to 90° = all of it) as reactive power. DC isn't quite as easy to use but on long distances there is no power loss to reactive power. 627235 (talk) 12:25, 7 July 2022 (UTC)
Do you have references? That doesn't seem right to me, speed-of-light lags ought to simply place widely separated power stations at different phase angles which appear the same, without causing a clash. And even in cases where there is an irreconcilable mismatch (say, if there's a loop flow), it's possible to use a "phase-angle regulating transformer" to match the phases. --172.71.150.154 06:27, 14 January 2024 (UTC)

Let's face it, the thing should be called an alternator. Of course that name's taken as a redundant word for (electrical) generator. 627235 (talk) 12:26, 7 July 2022 (UTC)

Alternator and Generator shouldn't be used interchangeably. At least, in automotive, aerospace and industrial discussions, a generator is normally thought of as a DC device while an alternator is AC, even if we usually rectify it's output to 12 or 24VDC... SwervingLemon (talk) 19:33, 9 July 2022 (UTC)

It always bothered me that UPS battery backups take the wall AC and convert it to DC to charge the battery, but then have to turn it back to AC to send it to the computer, so the power supply can convert it to DC to run the thing. I picture some connector that goes directly from the UPS to the power supply so that if power is lost it can just pull 12V directly from the battery. Andyd273 (talk) 12:47, 7 July 2022 (UTC)

some UPSs do this. They normally power the computer directly from the input AC, but if there is a power failure, they use the battery to power the inverters and switch the output to the inverter. Other UPSs always power the computer from the inverter. They have the advantage that there is not even a milisecond time to start powering the computer. That can be better for some equipment, and that kind of UPS often costs more. It is also worth noting that in some data centers, they bypass the AC step and have one big DC power supply that directly powers the computers. WhiteDragon (talk) 16:49, 7 July 2022 (UTC)

NOT logic gates are also often known as inverters. An even number of those would indeed produce the same output as the (true/false) input. 108.162.242.58 16:03, 7 July 2022 (UTC)

“Further chaining this into more inverters/rectifiers would normally not be considered.” Well, if you take a DCC controlled model railway for camping, you get a second stage of inverter/rectifier. The power supply of the DCC control station usually expects AC input, so you invert the DC of the car battery. The PSU then makes DC for the control station processor, which is then made AC to generate a DCC signal. The locomotives always have a rectifier to get a DC power supply from the DCC signal (which is confusingly AC).

You get a third stage with another plausible trick: put the battery on a car battery charger, which converts AC from the camping site power grid to DC. Then use a locomotive with a (rarely used) BLDC motor, which confusingly needs an inverter generating AC. --172.71.94.181 18:01, 7 July 2022 (UTC)

The efficiency calculation is bogus. For the rectifier, the "efficiency" of 81% relates to voltage, not power. (See https://en.wikipedia.org/wiki/Rectifier). I don't know what the power efficiency is, but I do note that my computer's power supply is not glowing white hot.

Where do you propose the extra current to make up for such difference would come from? 172.70.206.213 21:38, 7 July 2022 (UTC)
When you convert AC to DC or DC to AC, you can't qualify either with single number for voltage OR current. You need to examine whole graph, because both voltage and current are changing with frequency of (original) AC. I'm pretty sure that 81% figure is related to the different way how voltage is computed for AC and DC. That said, regarding the gloving power supply ... usually, power supply contains fan, and while it's partially used to cool the case interior, the power supply might not like it being stopped either. -- Hkmaly (talk) 22:24, 7 July 2022 (UTC)
Your computer's power supply has switching H-bridge MOSFET transistors that sense and match the AC phase, not an ordinary diode rectifier. 172.70.206.213 23:25, 7 July 2022 (UTC)
The mains input bridge rectifier in every PSU I've seen is just a normal 4 diode bridge, it's at worst a 2% loss. The output from the transformer probably has synchronous rectification due to the much lower voltage, but not an H-bridge, instead a center-tapped transformer winding and 2 MOSFETs. The only H-bridge in a PSU is the inverter. 141.101.76.233 21:43, 8 July 2022 (UTC)
Please see https://www.physics-and-radio-electronics.com/electronic-devices-and-circuits/rectifier/bridgerectifier.html "The maximum rectifier efficiency of a bridge rectifier is 81.2% which is same as the center tapped full wave rectifier." See also https://techweb.rohm.com/knowledge/acdc/acdc_pwm/acdc_pwm06/8786 162.158.166.183 19:36, 16 July 2022 (UTC)
Sigh, that's for 5V DC output. A rectifier isn't some magic device that wastes a fixed percentage of power, it's just some bloody diodes. Your first "source" is rubbish, and your second source is for the output rectifier for a 5V DC power supply. 172.71.94.187 22:56, 24 July 2022 (UTC)

I interpreted Randall imagining "inversion" as "reciprocal" (or maybe the inversion of a function) rather than physically turning something upside-down, since mathematical inversion is typically reversible... 172.70.130.121 03:48, 8 July 2022 (UTC)

Should the description also comment on the choice of number for this "connector". Obviously related to the fact that wall outlet voltage in the US is frequently (pun intended) 120 Volts. MAP (talk) 14:41, 8 July 2022 (UTC)

Two inverters *can* cancel each other out if they are the simplest type (a commutator, a.k.a. square wave inverter) *and* they happen to be synchronous. Expect glitches at the commutation points though! 172.70.210.125 16:39, 8 July 2022 (UTC)

Totally irrelevant to the comic. 172.70.211.52 20:58, 8 July 2022 (UTC)
How is it irrelevant?
The comic is about "meta alternating" pairs of consumer inverters and rectifiers, not idealized chains of the same circuit. 172.70.206.213 00:58, 9 July 2022 (UTC)
The title text is about pairing two inverters and having them cancel each other out. It's relevant. SwervingLemon (talk) 19:33, 9 July 2022 (UTC)

And another one marked "Done" (by removing the Incomplete bit) and then the same editor making further changes (and then correct their change). Wrong way round, mate! Make sure it's correct, make changes you really feel need making and then subsequentally (ideally after checking your addition) make your bold proclaimation of it being Complete. 172.70.85.13 22:01, 24 August 2022 (UTC)