Why I would like a PC that uses high-voltage, normal-wattage, and low-amperage.

[Radium]

Hi:

Would a computer designed to use high-voltage [around 10,000 volts],
low-wattage [around 0.000001 watt] have any advantage over conventional
computers?

It'd be much more resistant to electrostatic damage

This is one advantage I am looking for.

but at one microwatt
probably not very fast.

What about if the wattage is the same as that used by most computers?

Just for the fun of it, I would like each circuit of each component of
my PC to run at a wattage similar to that of those in normal PCs.
However the required voltage for each of those circuits should be
1,000,000,000,000 volts. No longer do I have to worry about static
frying the computer chips.

 

[Rheilly Phoull]

Hi:

Would a computer designed to use high-voltage [around 10,000 volts],
low-wattage [around 0.000001 watt] have any advantage over
conventional computers?

It'd be much more resistant to electrostatic damage

This is one advantage I am looking for.

but at one microwatt
probably not very fast.

What about if the wattage is the same as that used by most computers?

Just for the fun of it, I would like each circuit of each component of
my PC to run at a wattage similar to that of those in normal PCs.
However the required voltage for each of those circuits should be
1,000,000,000,000 volts. No longer do I have to worry about static
frying the computer chips.

so low that thermal expansion changing its capacitance would cause
problems.

Bye.
Jasen

Still trolling then ??

Cheers ......... Rheilly P

Where theres a will, I want to be in it.

 

[Michael A. Terrell]

Just for the fun of it, I would like each circuit of each component of
my PC to run at a wattage similar to that of those in normal PCs.
However the required voltage for each of those circuits should be
1,000,000,000,000 volts. No longer do I have to worry about static
frying the computer chips.

You don't have to worry about anything, because this is even more
hair brained than your last "Concept" There are no transistors that
operate at a trillion volts. First, show us how you plan to create this
voltage, and what insulation you are going to use to protect the crap
from self destructing. Go to the library and read up on basic physics.


--
Service to my country? Been there, Done that, and I've got my DD214 to
prove it.
Member of DAV #85.

Michael A. Terrell
Central Florida

 

[Radium]

You don't have to worry about anything, because this is even more
hair brained than your last "Concept"

There are no transistors that
operate at a trillion volts.

It is physically-possible to make them, though.

First, show us how you plan to create this
voltage,

Using circuitry similar to that of a stun gun, just MUCH more extreme.
Stun guns convert 9-volt battery power to 100,000 volt, very-low
amperage electric current.

and what insulation you are going to use to protect the crap
from self destructing.

The only insulation is air itself. Not that there is any insulation
needed. Electricity takes the shortest path from negative to positive.
The circuits just have to be set up correctly so that the shortest path
is also the intended path. There would be more electricity through air
than electricity through wires. At such a high-voltage [no matter how
low the amperage], the electricity can easily flow through even the
toughest insulators but it will still takes the shortest path from
negative to positive.

 

[Michael A. Terrell]

It is physically-possible to make them, though.

Prove it, troll.

Using circuitry similar to that of a stun gun, just MUCH more extreme.
Stun guns convert 9-volt battery power to 100,000 volt, very-low
amperage electric current.

What does this have to do with a conrnious trillion volt power
supply, troll?

and what insulation you are going to use to protect the crap
from self destructing.

The only insulation is air itself. Not that there is any insulation
needed. Electricity takes the shortest path from negative to positive.
The circuits just have to be set up correctly so that the shortest path
is also the intended path. There would be more electricity through air
than electricity through wires. At such a high-voltage [no matter how
low the amperage], the electricity can easily flow through even the
toughest insulators but it will still takes the shortest path from
negative to positive.

Not even a .001 on the troll meter.





Tell us the truth. Did your mother have any kids that wasn't born
brain dead?


--
Service to my country? Been there, Done that, and I've got my DD214 to
prove it.
Member of DAV #85.

Michael A. Terrell
Central Florida

 

[Bob Myers]

Just for the fun of it, I would like each circuit of each component of
my PC to run at a wattage similar to that of those in normal PCs.
However the required voltage for each of those circuits should be
1,000,000,000,000 volts. No longer do I have to worry about static
frying the computer chips.

Why do you think static "fries" the chips you have now? What
would those chips have to look like to withstand operation
at megavolt levels?

Do you think about these questions AT ALL before you post
this lunacy?


Bob M.

 

[Bob Myers]

It is physically-possible to make them, though.

How would you, of all people, know that? (Hint: no,
it ISN'T possible to make them.)

The only insulation is air itself. Not that there is any insulation
needed. Electricity takes the shortest path from negative to positive.

Wrong on two counts at least. But you keep trying to up that
total, don't you?

Still excellent advice. You don't know enough to even ask
reasonable questions, let alone understand the answers.

Bob M.