meBigGuy said:I assume by "same amplitude" you mean that any amplitude variation in the 230KV would show up in the 5V. For example, maybe you want to build a regulated tesla coil so you use a pickup loop to monitor the high voltage and keep it constant.
Anyway, down conversion of 230Kv AC is done by transformers. Huge power stations convert 230KV power lines to usable voltages. A pickup coil near a transmission line could produce 5V.
Can you be more specific regarding what you are trying to do?
mr_pavlo said:If it had the same amplitude it wouldn't be 5V but 230kV.
The Electrician said:You would use a potential transformer:
http://www.electricityforum.com/products/potential-transformer.htm
psparky said:Everytime you plug your phone into the wall you get 5 volts into your phone...that was once 230KV running down the powerlines. Only difference is they convert to DC...so just skip the rectifier in the last transformer.
So yes, very possible to convert since done all day, every day. (assuming different amplitude, obviously)
Multiple tranformers at specific points will do the trick.
Approximately how much will it cost to step down 230 KV to 5 V
jim hardy said:a sizeable chunk of a million bucks.
have you searched on "automatic synchronizer"?
https://www.basler.com/Products/Synchronizing/Auto-Synchronizers/BE1-25A-Automatic-Synchronizer/
Voltage is the potential difference between two points in an electrical circuit, measured in volts. Current is the flow of electric charge through a conductor, measured in amperes.
Voltage is typically measured using a voltmeter, which is connected in parallel to the component or circuit being measured. Current is measured using an ammeter, which is connected in series to the component or circuit.
AC (alternating current) voltage and current change direction periodically, while DC (direct current) voltage and current flow in one direction only. AC is typically used for power distribution, while DC is commonly used in electronic devices.
Accurate measurement of voltage and current is crucial in understanding the behavior of electrical circuits and ensuring their proper functioning. It is also important for safety purposes, as incorrect measurements could lead to damage or malfunction of equipment.
Voltage and current are used in a variety of scientific fields, such as physics, chemistry, and engineering. They are used to study the properties of materials, analyze the behavior of electronic devices, and conduct experiments in electricity and magnetism.