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EMP effects on communications

PotomacBob ๐Ÿšซ

I've seen discussions on this forum about the possible effects an EMP (either nuclear or solar) could have on the electric grid.
I don't recall seeing such a discussion about the effects on communications.
Would an EMP (not the blast, if it's nuclear) burn telephone wires? Would it knock out relay stations? What would it do to cell phone communications and/or microwave communications? Switchboards?
I recall reading that the 1859 Carrington Event knocked out the relatively new telegraph, and, even where batteries had been disconnected, still "shocked" some telegraph operators and, in some cases, set fires.
Is there a difference in how an EMP will affect fiber as opposed to metal wires?
I'm guessing satellite communications systems would be fried.
From whatever it does (and I'm assuming it will NOT be zero damage) how long would it take us to repair and/or replace the damage?

StarFleetCarl ๐Ÿšซ

@PotomacBob

Would an EMP (not the blast, if it's nuclear) burn telephone wires? Would it knock out relay stations? What would it do to cell phone communications and/or microwave communications? Switchboards?
I recall reading that the 1859 Carrington Event knocked out the relatively new telegraph, and, even where batteries had been disconnected, still "shocked" some telegraph operators and, in some cases, set fires.
Is there a difference in how an EMP will affect fiber as opposed to metal wires?
I'm guessing satellite communications systems would be fried.
From whatever it does (and I'm assuming it will NOT be zero damage) how long would it take us to repair and/or replace the damage?

EMP stands for Electromagnetic Pulse. There are about 8 million small EMP events every single day on earth. Lightning. The vast majority of them are basically harmless, but not always.

A nuclear or solar EMP would be several magnitudes larger and effect a larger area. As for wiring, it doesn't matter whether it's power lines or telephone lines, they'll be disrupted. Cell phone towers would also have critical components damaged or destroyed as well.

Fiber optics, however, would NOT be damaged. The equipment that converts the electrical signal to the light that is transmitted down the fibers might, but the actual fiber infrastructure itself should be relatively unharmed.

The satellites themselves may not actually be damaged too badly - they're in space already and are exposed to solar radiation all the time anyway. One in LEO (Low Earth Orbit) could receive more than they're designed to handle, ones in Geosynchronous orbit should be fine.

And as with the effect on the electrical grid, it's going to be years before damage is repaired or replaced. However, rudimentary communications could be established fairly quickly.

Replies:   PotomacBob  joyR
PotomacBob ๐Ÿšซ

@StarFleetCarl

Fiber optics, however, would NOT be damaged.

Why is that true? What is it about fiber optics that makes it not susceptible?

Replies:   REP
REP ๐Ÿšซ

@PotomacBob

What is it about fiber optics that makes it not susceptible?

A fiber optics line has no metal and it is non-conductive. Therefore, no current can be induced into the line. With no current induced the line and equipment connected to it are not damaged.

Replies:   Remus2
Remus2 ๐Ÿšซ
Updated:

@REP

Fiber optic equipment can be hit.. They could be harmed by the E1 component directly, and the E3 components indirectly. The line itself would be immune, but not the routers, power supplies, fusion splicers (think repairs), microwave towers, etc.

Replies:   REP
REP ๐Ÿšซ

@Remus2

You are correct that an EMP pulse can damage the hardware connected to a fiber optic conductor.

However, my response to PotomacBob's comment was addressing his question of why the fiber optic line would not be damaged.

An EMP pulse passing through a line with metal conductors induces current in the line. The line's induced current would cause most of the damage to the equipment connected to the line.

There would be no current induced in a fiber optic line so there would be no induced current to affect the equipment connected to the line. Although the EMP pulse would also pass through the equipment and that would damage the equipment.

Replies:   Remus2
Remus2 ๐Ÿšซ

@REP

Agreed, which is why I stated the fiber optic cable itself was immune.

joyR ๐Ÿšซ

@StarFleetCarl

Fiber optics, however, would NOT be damaged. The equipment that converts the electrical signal to the light that is transmitted down the fibers might, but the actual fiber infrastructure itself should be relatively unharmed.

Yes and no.

Fibre optic cables would not be damaged by a power surge, EMP etc.

BUT

The gizmo that converts the digital signal to the optical one gets fried by EMP and often by a serious power surge.

Not my opinion, that of the engineers brought in to replace the entire system that was destroyed by a lightening strike, the fire optic cable survived, the electronics were trashed. I asked out of sheer boredom what else could damage the system. They answered as above and added that without the gizmo stuff the fibre optic cable is unusable, so in terms of an EMP strike, the system would be effectively unusable.

REP ๐Ÿšซ

@PotomacBob

One thing to recall regarding damage done in the early days of communications such as the Carrington Event is there is a better understanding of what EMP does to electronics and power/telephone/telegraph lines. That understanding has resulted in measures to protect the equipment, but a major EMP event will result in damage. The closer the equipment is to the event's location, the greater the damage.

awnlee jawking ๐Ÿšซ

@PotomacBob

A nearby lightning strike sent a power surge down my (copper) telephone line. It didn't harm the telephone wire but it totalled my router, as didn't have built-in surge protection.

AJ

Replies:   PotomacBob
PotomacBob ๐Ÿšซ

@awnlee jawking

A nearby lightning strike sent a power surge down my (copper) telephone line.

Are all telephone lines made of copper? Or are you just unlucky?

Replies:   awnlee jawking
awnlee jawking ๐Ÿšซ

@PotomacBob

In the UK, an increasing number of exchange-to-kerbside-cabinet wires are fibre-optic (if you pay extra) but kerbside-cabinet-to-house wires are still copper. My area was still copper-copper at the time and I still am, but I believe fibre-copper is now available in my area.

If you're in a cable area, I believe you can get broadband etc via cable, but your telephone landline will still terminate in copper.

AJ

Replies:   REP
REP ๐Ÿšซ

@awnlee jawking

If you're in a cable area, I believe you can get broadband etc via cable

Cable TV uses fiber optics lines to the consumers' neighborhoods, but the homes are typically connected to the fiber optic network using coaxial cable which has metal conductors and shielding.

red61544 ๐Ÿšซ
Updated:

EMP from a nuclear air burst wouldn't just affect the grid, it will change life as we know it. Electronic ignition in your car won't work. Your microwave and any other appliance with a computer chip with not function. Most machinery in hospitals will quit functioning also. We depend so heavily on computer chips for our everyday life, we probably won't live long enough for the radiation to kill us. That's why the military has spent billions to shield critical equipment.

Replies:   PotomacBob
PotomacBob ๐Ÿšซ

@red61544

And how does any of that change the communications system?

Ross at Play ๐Ÿšซ

@PotomacBob

Would an EMP ... burn telephone wires? Would it knock out relay stations?

One thing that would be different now than in the past is the area of the electricity grid that would be knocked out by EMP events.

In the past, a failure in one area of a grid would cause surges in adjacent areas, knocking them out, and cascading failures could result in blackouts over very large areas. IIRC, there was a blackout which spread across much of the US east coast in the mid-20th century, even though the initial failure was not particularly significant. The damage caused by such things is repairable in a matter of hours, but the chaos elsewhere until those repairs are completed can be immense.

I think electricity grids now have better self-protective features built-in. (Hopefully) a major failure in one area of the grid would not spread very far. But, could some number of concurrent failures scattered across a grid knock it all out? My guess is it could, at least for a matter of hours or days. Grids are designed to maintain an approximate balance between the power being pumped into them and end users taking it out. "Stuff happens" if connections to end users are broken and power plants cannot react quickly enough to reduce the power they are generating.

If you're looking for a scenario with long-term catastrophic consequences, EMP events near nuclear power stations could easily do that. Whether they are transmitting power into the grid or not, they cannot afford to have their cooling systems out of action for no longer than a few hours to prevent meltdowns. An EMP event nearby would knockout their ability to send energy away, but also fry the electronics of their diesel back-up generators. If there are multiple EMP events, would the military be too preoccupied to airlift in mobile generators? The Fukushima disaster would have been a non-event if only the power station had asked the military for that once they knew they couldn't be certain of getting their flooded diesel generators operational in time. Perhaps worst of all would be if the electronics which control the pumps of the cooling systems of nuclear power stations get fried. The circuits of nearby spares would have been fried too.

Replies:   PotomacBob  Remus2
PotomacBob ๐Ÿšซ

@Ross at Play

Does that affect the communications system?

Replies:   Ross at Play  REP
Ross at Play ๐Ÿšซ

@PotomacBob

Does that affect the communications system?

Sorry, Bob. I may have exaggerated the extent of my "knowledge" already.

REP ๐Ÿšซ

@PotomacBob

Does that affect the communications system?

An EMP pulse will affect all electrical and electronic equipment. The stronger the pulse's strength is when it reaches the equipment, the greater the damage.

Many electrical and electronic systems have EMP protection built in. But if the pulse is strong enough, the equipment can still be damaged.

Replies:   Not_a_ID
Not_a_ID ๐Ÿšซ
Updated:

@REP

An EMP pulse will affect all electrical and electronic equipment. The stronger the pulse's strength is when it reaches the equipment, the greater the damage.

Many electrical and electronic systems have EMP protection built in. But if the pulse is strong enough, the equipment can still be damaged.

As we do another round of agreeing with each other but disagreeing over the nits that we're mutually picking at:

Fiber Optic Communications are light based and as such immune to Electromagnetic Interference. It would take a physical event disrupting continuity of the fiberoptic (glass) line to disrupt those lines.

That said, Fiber Optics Communications are not just that long strand of extruded glass. It also is the electronics at both ends of the cable.

The Electronics are vulnerable to EMP and other electromagnetic interference.

So the Fiber Optic Cables themselves would be fine. The Electronics needed in order to make the Fiber Optic Cable useful, that's a much more wildly variable factor.

Replies:   StarFleet Carl
StarFleet Carl ๐Ÿšซ

@Not_a_ID

As we do another round of agreeing with each other but disagreeing over the nits that we're mutually picking at

Isn't that pretty much what I said before? I'm not even sure where or why there's a disagreement.

Fiber optic cables themselves won't be damaged. The electronic components at each end of the cable may (probably will be) damaged. If these electronic devices actually destroy themselves, the ends of the cables will be damaged, so it won't be a simple case of unplug the cable from the old device and plug it into the new one - you may have to cut the cable and put a new end on it.

Remus2 ๐Ÿšซ

@Ross at Play

The Fukushima disaster would have been a non-event if only the power station had asked the military for that once they knew they couldn't be certain of getting their flooded diesel generators operational in time. Perhaps worst of all would be if the electronics which control the pumps of the cooling systems of nuclear power stations get fried. The circuits of nearby spares would have been fried too.

The entirety of that is BS. There was nothing that could be done with or without the generators. In order for the cooling pumps to work, they would have to have piping to run the coolant through. The internals of that plant were effectively shattered, including the piping.
When you saw the place exploding within hours, it was clear the reactors had already started melting down. TEPCO ignored upgrades advised by GE for that design. Too much money they said.
They further ignored IAEA advisories to dry cask store spent fuel. They still had 89% of all fuel they ever burned sitting in the spent fuel pool when that happened.
TEPCO rolled the dice and the general public along with them lost.

Replies:   Ross at Play
Ross at Play ๐Ÿšซ

@Remus2

The entirety of that is BS. There was nothing that could be done with or without the generators.

I believe what you are saying is complete rubbish but I will not assert that is so. I suspect you've been looking at sites which have been peddling misinformation to pursue some political agenda.

But, I am open to being convinced otherwise. Can you cite any news articles from sources whose name us here will all instantly recognise?

As far as I know the reactor(s) which melted down had been functioning normally before the earthquake. When that hit they shit down automatically without a hitch. When the tidal wave hit, the building containing the reactors survived without damage, however, the back-up diesel generators were flooded. The management at the plant attempted to get those generators running again. All would have been okay if they'd contacted the civil defense force at that time - to be certain power for the cooling system's pumps would be restored before the temperature reached dangerous levels.

I'll gladly revise my opinions and say so here if you prove otherwise, and I confess I did not spend many hours researching what had happened, but don't expect me to give any credence to any old thing you found on the internet.

Replies:   Zom  Ross at Play  Remus2
Zom ๐Ÿšซ

@Ross at Play

don't expect me to give any credence to any old thing you found on the internet

What do you mean? If it's on the Internet it must be true! And the more sensational it is the truer it must be! If you don't believe me, just ask Donald ...

Replies:   Michael Loucks
Michael Loucks ๐Ÿšซ

@Zom

What do you mean? If it's on the Internet it must be true! And the more sensational it is the truer it must be! If you don't believe me, just ask Donald ...

Or any random snowflake...same issue.

Ross at Play ๐Ÿšซ
Updated:

@Ross at Play

As far as I know the reactor(s) which melted down had been functioning normally before the earthquake. When that hit they shit down automatically without a hitch. When the tidal wave hit, the building containing the reactors survived without damage, however, the back-up diesel generators were flooded. The management at the plant attempted to get those generators running again. All would have been okay if they'd contacted the civil defense force at that time - to be certain power for the cooling system's pumps would be restored before the temperature reached dangerous levels.

I checked Wiki which suggests that is not entirely true.

It suggests neither the reactors nor the cooling systems were damaged by either the earthquake or tsunami. However, they knocked out all sources of energy to run the cooling system - except for some batteries which would last about 8 hours.

The power plant notified the civil defense authorities immediately. They sent generators by road! In all the chaos, it took 6 hours for them to get there. There were then problems getting the right cables to get to power to the cooling system.

Apart from some design weaknesses, such as installing back-up generators on higher ground which wasn't high enough, the equipment did everything it should and the company did all it could. The fault for the overheating and eventual meltdown, which all started many hours after the tsunami, appears to rest entirely on the civil defense forces for not ensuring those cooling systems would have power - come what may - within 8 hours.

Remus2 ๐Ÿšซ
Updated:

@Ross at Play

IAEA, USNRC, TEPCO, general physics for that matter. Btw, asking for reputable sources and then quoting wiki isn't one of wiser things I've ever seen you do.

I'll give you a head start in 'your' homework though. Look up how heat can create hydrogen gas, and more specifically, how much heat is required. The latter being the source of the explosions broadcast hours after the event.

Anyone with two brain cells and some research can verify everything I've stated if they want to. Do your own homework.

Edit;
https://www.theatlantic.com/international/archive/2011/07/meltdown-what-really-happened-fukushima/352434/

15 seconds with google. Imagine what you could do if you actually put some effort in.

Replies:   Ross at Play
Ross at Play ๐Ÿšซ
Updated:

@Remus2

https://www.theatlantic.com/international/archive/2011/07/meltdown-what-really-happened-fukushima/352434/

I find that link unconvincing. It is portrayed as if it's an "expose" debunking the "official story". You don't need to read much to see it's a beat-up. Which does not necessarily mean is doesn't contain any relevant information.

What is the actual "evidence" it presents? For starters, there are some anonymous quotes from a few employees who say they saw "some damage". I expect there was. It was a very strong earthquake and very close. But was there anything to show that damage had knocked out the plant's cooling systems?

One of the employees said there was an explosion soon after the earthquake. Maybe there was. But again, what is the evidence that one explosion knocked out the cooling systems of the multiple reactors which later melted down?

It then goes on to quote at length someone with an obvious agenda of self-promotion: wanting to claim he'd been proven right about his prior warnings that all of Japan's nuclear plants are unsafe.

I couldn't be bothered reading any further.

I haven't seen anything remotely convincing yet. What I've seen looks more like some hack's hope that subsequent revelations might end up delivering them a Pulitzer Prize.

And you tossing a list of acronyms at me hardly constitutes "evidence" either.

My official opinion remains I do not know and I do not care.

And as for me not doing homework? I never claimed to know all the facts. I have not misrepresented what I know in any way.

My initial comment was nothing more than a throw-away line in the middle of a post about something else. I thought the OP may have been investigating a plot line for a story, and was wondering if an EMP would cause sufficient damage for his needs. I suggested a blast near a nuclear power plant may serve his needs if he was looking for a disaster scenario, because knocking out a plant's cooling system for long enough will cause a meltdown.

I had not then, and I still don't, have any desire to discuss what actually happened at Fukushima. I mentioned it only as evidence of how critical cooling systems are to the safety of nuclear power plants.

And if it is one huge cover-up, does that make my suggestion to the OP any less valuable? If it's good enough for a real-life cover-up, wouldn't it would be good enough for someone's novel?

This, in context, is what I posted:

If you're looking for a scenario with long-term catastrophic consequences, EMP events near nuclear power stations could easily do that. Whether they are transmitting power into the grid or not, they cannot afford to have their cooling systems out of action for no longer than a few hours to prevent meltdowns. An EMP event nearby would knockout their ability to send energy away, but also fry the electronics of their diesel back-up generators. If there are multiple EMP events, would the military be too preoccupied to airlift in mobile generators? The Fukushima disaster would have been a non-event if only the power station had asked the military for that once they knew they couldn't be certain of getting their flooded diesel generators operational in time. Perhaps worst of all would be if the electronics which control the pumps of the cooling systems of nuclear power stations get fried. The circuits of nearby spares would have been fried too.

I now know of one statement in that which is incorrect. The military were asked promptly. Also, this statement was a bit confused: 'An EMP event nearby would knockout their ability to send energy away'. I meant to say the two usual power sources for nuclear plants would be gone: using power they are generating or drawing power from the grid.

You quoted the same words as I just have and began your reply with:

The entirety of that is BS.

You could have said, "The official version of what happened is BS," unless you were intentionally trying to cause offence. If you had said that, I would probably have asked you for some further evidence before dismissing you as a conspiracy-theory-swallowing-and-espousing loonie tune.

Instead, I politely asked for evidence, but being clear I would disregard anything from sources which were not credible.

Later on, I had a look at Wiki. Based on that, I wanted to correct the mistaken impression I had given that there was a delay in the military being asked to send generators.

That post was not directed at you! I was still waiting for whatever "evidence" you might provide. I directed that at my previous post which I quoted and then corrected.

You started your next post with this???

Btw, asking for reputable sources and then quoting wiki isn't one of wiser things I've ever seen you do.

Read what is said before mouthing off!

I started my post with this (my emphasis added):

I checked Wiki which suggests that is not entirely true.
It suggests โ€ฆ

Does that sound like someone who believes Wiki is a reliable source of information?

Then you become very insulting and condescending with this:

I'll give you a head start in 'your' homework though. Look up how heat can create hydrogen gas, and more specifically, how much heat is required. The latter being the source of the explosions broadcast hours after the event.

Anyone with two brain cells and some research can verify everything I've stated if they want to. Do your own homework.

I have no need to do any homework. I'm not the one jumping up and down claiming to know all the facts. I have no need to research every little-known and little-believed conspiracy theory out there on the internet!

I never wanted to discuss what happened there. I never claimed to know all the facts. In fact, I explicitly said I did not.

This is what I said in my first response to you:

I confess I did not spend many hours researching what had happened

I had spent some time looking into it, enough to know some basics about the generally accepted or "official" version. You claim that's all a massive cover-up by Japanese authorities. Maybe it is? Whether it is or not, it is grossly offensive of you to suggest I have been negligent or lack intelligence if, on the basis of limited research, I am unaware that some dispute the official version of events.

If you want to try to convince me of the "real facts", go ahead. I do not care one way or the other. I'll give it a look if you extract something credible from all those acronyms, but I won't promise to give it more than a cursory scan.

But I would have an open mind. The official version is not entirely convincing. It taking 6 hours for generators to reach the plant because of road conditions seems like a plausible human cock-up. It's not so convincing that, presumably, a team of army engineers could not cobble together a functional electrical connection within two hours after getting there because they didn't have the right cables.

Who knows? I might even end up revising my current opinion of you that, whether you're right about this one or not, you are a needlessly-offensive, conspiracy-theory-believing-and-espousing loonie tune!

Not_a_ID ๐Ÿšซ
Updated:

A strong enough signal can fry a receiver if it happens to be

1) insufficiently protected

And

2) listening when it happened.

Assuming the signal happens in/near the frequency range it is listening for. But it takes a VERY powerful signal to induce that kind of damage on a radio receiver. Otherwise jammers would blow things up more often than they do when employed by the military. (EMP is almost easier by comparison in many respects)

Fiber Optic communication is "generally" considered largely "immune" to both EMP and jamming techniques because they're using modulated light conveyed through extruded glass. Glass is an electrical isolator, not a conductor, so miles of fiber optic cable isn't going to "act like an antenna" and induce currents like copper wiring would.

But as mentioned, fiber optics require transceivers to both create said modulated lights, and to receive them on the other end. Those need electricity to function, a fiber optic communications network is as vulnerable as its weakest connection to a power source.

So DOD may have a fiber communication network in place for select locations which have even their power grid inter-connection "hardened" against EMP, but as they're generally reliant on Encrypted Comms over "public fiber" these days, such links are probably the exception, not the rule. If the transceivers and other assorted network switching equipment gets zapped by way of their electricity provider, they're out of luck.

IIRC, Discovery did a show few years back where they took some vehicles out to a (DOD) test range where they simulated various forms of EMP events(solar, nuclear) at various intensities and ranges. Even the (then) late-model cars actually did fairly well in MOST cases, often the most that would be needed is to disconnect the battery, wait for the computer to reset, hook it back up and off you go.

The "problems" for cars as I recall, didn't start hitting the point of needing to replace equipment until they started simulating a strong Nuclear EMP blast, typically with 60 miles or less.... But it you're less than 60 miles away from a nuclear strike, you're probably going to have bigger concerns on your hands. "Extensive repairs" involving electrical/electronic parts was in the 20-ish mile range, IIRC.

Of course, an EV plugged into the Grid when a EMP hits is undoubtedly fucked regardless.

Remus2 ๐Ÿšซ

There is no such animal as a solar EMP. Geomagnetic storms created by the sun, do so via secondary induction at the poles. The current from that supercharges the natural diurnal telluric currents in the ground. That does not a pulse make.

The Carrington event fried the telegraph stations from the ground up, not the sky down. The telluric currents entered the wires from the earth battery feed lines. Those earth batteries were necessary to propagation of the signal as normal resistance in the line would otherwise kill the signal.

Nuclear based EMP comes in two flavors.
https://en.m.wikipedia.org/wiki/Starfish_Prime
https://en.m.wikipedia.org/wiki/Soviet_Project_K_nuclear_tests

One is atmospheric, the other is edge of space with the latter being more potent in regards to EMP. I'll call them SP and K3 respectively.

One (SP) has two primary effects, and one weak effect, while the other (K3) has four effects, all of which are stronger.

The components of which are as follows:
E1 - fast moving, fast rise and fall times (micro to tenths of a second) This effect is primarily responsible for frying surface based semiconductors. It's cause is from charged particles created via Pair Production, Compton effect, and Photoelectric effect. The K3 version kiloton for kiloton, is stronger due to having more atmosphere to charge before saturation.

E2 - medium speed, rise and fall times from one second to a minute. Saturation is where this one does its damage. It's a derivative of the E1 secondary effects.

Unlike solar, both of those are top down.

E3 - these effects mirror the mechanism solar geomagnetic storms do damage with. Secondary induction is present but the strength of which is tied to volume of charge and proximity to the ground.

E3 Heave - this effect comes from only the K3 version. The nuclear blast being above the atmosphere, but below the magnetosphere, is why.
The blast 'heaves' the lower levels of the magnetosphere, which in turn induces a flux into the ground and again induces more current for the telluric field. This is what makes a HEMP weapon the most dangerous of the lot.

There are reams of doomer sites and youtube channels pumping out BS information on the subject. I strongly suggest you research for yourself everything I've stated here from reputable sources. If you do this, it shouldn't take long to figure out fact from BS fiction.

Banadin ๐Ÿšซ

Hold your responses for a few minutes. I need to make more popcorn.

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