1) Why the US (and most of the Americas) uses 60 Hz and Europe (and the rest of the world) uses 50 Hz?
2) Why does the US uses 110 V (now set at 120 V) and Europe uses 220 V (now set to 230 V)?
It does seem to be a conglomeration of historical reasons, including state of the art back in 1890's, which company had a head start, and standardization. Some history:
George Westinghouse did his original engineering using 133 1/3 Hz. Westinghouse had an steam engine driven alternator set running at 2000 rpm (By 1886 mechanical engineers liked to have steam engines in integral numbers of rpm) and with 8 poles the set produced 8000 cycles per minute or 133 1/3 Hz. This was good for lighting as there was no flicker but it turned out it was too high for motors later developed.
The earliest experiments (1886 and 1887) used belt driven generators and tended toward high frequencies like 133 1/3 Hz. This suited illumination, which was practically all that alternating current was used for at that time. By 1889 and 1890 direct driven generators were coming on line. They were more robust but with lower rotation speeds they encouraged lower frequencies.
In the early years of ac there were many frequencies: each engineering team seemed to pick their own. Early frequencies in the US were 133 1/3, 125, 83 1/3, 66 2/3, 60, 50, 40, 30, 25 Hz. When Tesla joined Westinghouse, it was using 133 1/3 Hz. Tesla insisted upon 60 Hz because his ac induction motor was designed for 60 Hz and apparently wouldn't work at 133 1/3 Hz.
On the Westinghouse Museum website it says that G. Westinghouse assigned his engineers Stillwell, Shallenberger, Schmid, and Scott to find a good frequency. Practical considerations of connecting alternating generators to reciprocating engines then in use demanded a lower frequency than 133 Hz.
Before the end of 1892 they chose 2 frequencies: 60 Hz for lighting and 30 Hz where power was to be converted to DC.
Why did Tesla/ Westinghouse engineering team choose 60 Hz? If it was Tesla that was the driving force, various biographies of Tesla declare different theories ranging from Tesla "thought it was the fundamental frequency of the universe" to "… considered the natural earth had a frequency of 10 Hz and doing experiments with 8 to 20 Hz and 20 to 40 Hz and finally 40 to 100 Hz; he decided that 60 Hz was safe." It doesn't seem to have been a desire to do accurate clocks because Henry Warren didn't patent the synchronized clock until 1916 long after the frequency was chosen. Although Warren was diligent in getting utilities to have tight specs on frequency this didn't happen until into the 1920's.
Back in the early 1890's Westinghouse was involved in bidding electrical equipment for the Niagara falls power project. However the Cataract Company (in charge of the Niagara Falls project) had already selected hydraulic turbines running at 250 rpm. So if a 16-pole generator were chosen the frequency would be 33 1/3 Hz and if a 12-pole machine were chosen then the frequency would be 25 Hz. The project consultant proposed an 8-pole generator or 16 2/3 Hz. The compromise was 25 Hz. At the time lower frequencies were easier to handle on transmission lines. Another reason is that the Steel industry liked 25 Hz because of huge slow speed induction rollers, which had a low power factor for 60 Hz and worked better at 25 Hz. Niagara Falls generated 25 Hz way into the 20th century. The website says that the Westinghouse Company later wished it had forced through 30 Hz.
By 1910 it looked there would be two frequencies in North America, 25Hz for transmission and heavy industry that needed dc or slow moving heavy machinery and 60 Hz for lighting (less flicker) and general use.
There was an effort by GE to introduce 40 Hz as a compromise between 25 Hz and 60 Hz in the 1890's but it was too late to overtake the 60 Hz and 25 Hz infrastructures already in place although there were some 40 Hz installations. Even so most installations in the US were done in 60 Hz after Westinghouse and GE cross licensed their patents.
Development of high-speed turbines instead of slow reciprocating machinery and later developments of the rotary converter that worked well at 60 Hz made it easy to shift everything to 60 Hz. By 1920 most of the problems associated with 60 Hz transmission had been solved so that there was no longer any advantage of transmitting 25 Hz over 60 Hz. That seems to be why the US is 60 Hz.
Germany took the lead in Europe of developing electrical power (primarily Emil Rathenau of AEG) and AEG seems to have used 50 Hz from day one. In 1891 AEG had demonstrated power delivery over long distances using 50 Hz. I don't know why AEG chose 50 Hz. Did the penchant for integer rpm help influence AEG for 3000 rpm and 50 Hz as opposed to 3600 rpm and 60 Hz? Did the preference for preferred numbers influence the choice of 50 Hz over 60 Hz? Did Tesla's influence pull Westinghouse to choose 60 Hz and resultant 3600 rpm over 50 Hz and 3000 rpm? Europe was even more fragmented in the early days than the US. In 1918 in London alone there were 70 electric authorities with 50 different types of systems and 10 different frequencies and 24 different voltages. But by the 1920's and 1930's more and more of Europe was changing to or working with 50 Hz.
As for voltages both Europe and the US seemed to have begun with about 100 to 110 Volts DC because of Edison's success with replacing gas lights with electric lamps. Although many inventors worked on electric lights, generators and electrical systems, Edison was one of the first and was successful in putting together whole systems not just the pieces. Edison picked 110 VDC because that was the voltage he needed to get enough light out of his bulbs to compete with common gas lamps of the time and yet not blow the filaments in his bulbs too soon.
The Berlin Electric Works (utility owned by AEG) changed from 110 V to 220 V starting in about 1899 to enlarge the capacity of their distribution system since the city (Berlin) was already wired 2 wires. They were probably changing from dc to ac at the time also. They paid for their customers to change their lighting and motors to 220 V and saved on the cost of copper by avoiding having to add more wiring. This spread throughout Germany and later Europe but didn't take hold in the US.
I wonder if the residue from the bitter conflict between Edison and Westinghouse about the safety of AC vs. DC spilled over into not going above 110 volts for residential users even after Edison's forces conceded the need for AC.
A lot of this information comes from Thomas Hughes Networks of Power : Electrification in Western Society, 1880-1930 and Benjamin Lamme Technical Story of Frequencies IEEE transactions 37 (1918) 60. Benjamin Lamme was chief engineer for Westinghouse in the early 1900's.
The choice of 110V and 60Hz in the US dates back to early electrification history. Thomas Edison championed the use of 110V, while Nikola Tesla and George Westinghouse advocated for 60Hz. This standard was established because it offered a good balance between safety, efficiency, and cost for powering household appliances and devices.
The answer is: simply because of historical reasons. Somebody once started distributing 110V ac and appliances were sold to match this. By going this way, it became a standard. In some European countries we've seen the same value being used in the past. I do know that in the 1950s a change and standardization of 220V ac was implemented in the Netherlands, where different values were used in different local nets before. The benefits of standardization are clear (travelling - easier distribution of equipment, and so on).
The choice for 220V (now 230V) was based on reducing the distribution losses: the higher the voltage, the lower the distribution loss because the current is then also lower, for the same amount of electrical power.
To get a 110V outlet in a car, you can use a power inverter that converts the car's 12V DC power to 110V AC power. You can plug the power inverter into the car's cigarette lighter socket to power devices that require 110V outlets. Make sure to check the power rating of the inverter to ensure it can handle the devices you want to power.
The commercial voltage in Taiwan is 110V. The frequency of this voltage that is supplied to homes and other places is 60Hz.
Yes, you can step down 415V to 110V using a transformer. The transformer will reduce the voltage to the desired level, allowing you to power devices that require 110V. Be sure to use a transformer rated for the appropriate voltage conversion.
The power-bar must be plugged into the correct voltage it was designed for.
Power is calculated from volts time amps. 110V x 0.727A is 79.97 watts. Note that power is not "consumed" but rather converted to other forms of energy such as light and heat.
If 240 power is supplied you can. Depends on power pole.
110v
There is a difference. For one thing, Australia works at 50hz and America at 60hz, and in domestic supply, Australia works at 240v and America at 110v.
To get a 110V outlet in a car, you can use a power inverter that converts the car's 12V DC power to 110V AC power. You can plug the power inverter into the car's cigarette lighter socket to power devices that require 110V outlets. Make sure to check the power rating of the inverter to ensure it can handle the devices you want to power.
The commercial voltage in Taiwan is 110V. The frequency of this voltage that is supplied to homes and other places is 60Hz.
If you can use it in your lamp it will be a 20 watt bulb
Yes, you can step down 415V to 110V using a transformer. The transformer will reduce the voltage to the desired level, allowing you to power devices that require 110V. Be sure to use a transformer rated for the appropriate voltage conversion.
On a three wire supply system if you connect the two 110V wires together and they are across the phase they will short out and trip the breaker. If the two 110V wires are supplied from across the phase and connected to a motor then the motor will run. If the 110V wires are on the same phase nothing will happen.
If you connect 110V xbox one to a 220V outlet, only the power supply will burn and not the Xbox one.
The power-bar must be plugged into the correct voltage it was designed for.
Yes. If the computer power input is only rated for 110V input, you can power it from 220V by using a voltage converter from 220V to 110V with appropriate wattage. Some computer power supplies also have a switch for setting 110V/220V in which case computer can be powered from 220V after changing the setting. Most of the portable computers/laptops have power adapters which are rated for universal voltage (e.g. my Dell laptop AC adapter is rated for 100-240V 50-60Hz).
Power is calculated from volts time amps. 110V x 0.727A is 79.97 watts. Note that power is not "consumed" but rather converted to other forms of energy such as light and heat.