Electricity types

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Electron flow in a cross-section of wire: Top- In a direct current circuit, the electrons only flow in one direction from positive to negative. Bottom- In an alternating current circuit the electrons flow in both directions as positive and negative alternate.
Voltage over time: Direct current maintains a steady voltage (red). Alternating current switches back and forth (blue).

There are two types of electricity – Alternating Current (AC) and Direct Current (DC). These two terms describe the way in which the current flows in a circuit. In a DC circuit, the current only flows in one direction, meaning that they have a constant positive (+) and negative (-). This relationship of positive to negative charge is referred to as polarity. In an alternating current circuit, current flow changes direction regularly, switching the polarity (positive (+) and negative (-)) each time. This back and forth switching of polarity in an alternating current circuit is reffered to as frequency and is measured in Hertz (Hz). Polarity in a typical AC circuit switches between 50-60 times per second meaning that the circuit has a frequency of 50-60Hz.

In any electrical system, whether AC or DC, all components or appliances must be rated to function with the characteristics of the electrical system - voltage, current, and frequency if AC. If they are used improperly it can lead to a failure that results in fire or injury.

Direct current

PV modules can only produce DC, thus all PV systems have at least one DC circuit. Anything that uses a battery, including PV systems, will be based on DC as batteries can only store energy in DC form. Powering a load directly from DC saves the step of having to use an inverter to convert from DC to AC, which can create losses of more than 10% in the process. Many small scall systems are DC only and work well for lightning and the charging of small electronic devices like cell phones.

Alternating current

World map depicting common frequencies for each country.[1]

The grid is almost entirely built to function with alternating current, although the voltage, frequency and number of wires varies around the world. Nearly all electronic devices - cell phones, radios, computers and televisions - run on DC internally, but because they are typically designed to function with the grid they incorporate electronics to convert from AC to DC. Appliances with motors or compressors - refrigerators, fans and tools - have motors that can run directly on alternating current.

Country or
territory
Residential
voltage[2]
Three-Phase
Voltage (L-L)
Frequency[2]
Afghanistan 220 V 380 V 50Hz
Albania 230 V 400 V 50Hz
Algeria 230 V 400 V 50Hz
American Samoa 120 V 208 V 60Hz
Andorra 230 V 400 V 50Hz
Angola 220 V 380 V 50Hz
Anguilla 110 V 120/208 V
127/220 V
240/415 V
60Hz
Antigua and Barbuda 230 V 380 V 60Hz
Argentina 230 V 380 V 50Hz
Armenia 230 V 400 V 50Hz
Aruba 127 V 220 V 60Hz
Australia 230 V 400 V 50Hz
Austria 230 V 400 V 50Hz
Azerbaijan 230 V 380 V 50Hz
Bahamas 120 V 208 V 60Hz
Bahrain 230 V 400 V 50Hz
Bangladesh 220 V 380 V 50Hz
Barbados 115 V 200 V 50Hz
Belarus 220 V 380 V 50Hz
Belgium 230 V 400 V 50Hz
Belize 110 V
220 V
190 V
380 V
60Hz
Benin 220 V 380 V 50Hz
Bermuda 120 V 208 V 60Hz
Bhutan 230 V 400 V 50Hz
Bolivia 115 V
230 V
400 V 50Hz
Bonaire 127 V 220 V 50Hz
Bosnia and Herzegovina 230 V 400 V 50Hz
Botswana 230 V 400 V 50Hz
Brazil 127 V
220 V
220 V
380 V
60Hz
British Virgin Islands 110 V 190 V 60Hz
Brunei 240 V 415 V 50Hz
Bulgaria 230 V 400 V 50Hz
Burkina Faso 220 V 380 V 50Hz
Burundi 220 V 380 V 50Hz
Cambodia 230 V 400 V 50Hz
Cameroon 220 V 380 V 50Hz
Canada 240 V 120/208 V
240 V
277/480 V
347/600 V
60Hz
Cape Verde 220 V 400 V 50Hz
Cayman Islands 120 V 240 V 60Hz
Central African Republic 220 V 380 V 50Hz
Chad 220 V 380 V 50Hz
Chile 220 V 380 V 50Hz
China, Mainland 220 V 380 V 50Hz
Colombia 120 V 208 V
220 V
260 V
440 V
60Hz
Comoros 220 V 380 V 50Hz
Congo, Republic of the 230 V 380 V 50Hz
Congo, Democratic Republic of the 220 V 400 V 50Hz
Cook Islands 240 V 415 V 50Hz
Costa Rica 120 V 208 V 60Hz
Côte d'Ivoire 230 V 380 V 50Hz
Croatia 230 V 400 V 50Hz
Cuba 110 V 190 V 60Hz
Curaçao 127 V 220 V
380 V
50Hz
Cyprus 240 V 400 V 50Hz
Czech Republic 230 V 400 V 50Hz
Denmark 230 V 400 V 50Hz
Djibouti 220 V 380 V 50Hz
Dominica 230 V 400 V 50Hz
Dominican Republic 110 V 120/208 V
277/480 V
60Hz
Ecuador 120 V 208 V
480 V
60Hz
Egypt 220 V 380 V 50Hz
El Salvador 115 V 208 V
220 V
440 V
480 V
60Hz
Equatorial Guinea 220 V [unavailable] 50Hz
Eritrea 230 V 400 V 50Hz
Estonia 230 V 400 V 50Hz
Eswatini 230 V 50Hz
Ethiopia 220 V 380 V 50Hz
Falkland Islands 240 V 415 V 50Hz
Faroe_Islands 230 V 400 V 50Hz
Fiji 240 V 415 V 50Hz
Finland 230 V 400 V 50Hz
France 230 V 400 V 50Hz
French Guiana 220 V 380 V 50Hz
French Polynesia 110 V
220 V
60 Hz
Gabon 220 V 380 V 50Hz
Gambia 230 V 400 V 50Hz
Georgia (country) 220 V 380 V 50Hz
Germany 230 V 400 V 50Hz
Ghana 230 V 400 V 50Hz
Gibraltar 240 V 400 V 50Hz
Greece 230 V 400 V 50Hz
Greenland 220 V 400 V 50Hz
Grenada 230 V 400 V 50Hz
Guadeloupe 230 V 400 V 50Hz
Guam 110 V 190 V 60Hz
Guatemala 120 V 208 V 60Hz
Guernsey 230 V 415 V 50Hz
Guinea 220 V 380 V 50Hz
Guinea-Bissau 220 V 380 V 50Hz
Guyana 110 V
220 V
190 V 60 Hz
50 Hz
220/380 V 50 Hz
230/460 V 60 Hz
Haiti 220 V 220/380 V 50Hz
110 V 110/220 V 60 Hz
Honduras 110 V 208 V
230 V
240 V
460 V
480 V
60Hz
Hong Kong 220 V 380 V 50Hz
Hungary 230 V 400 V 50Hz
Iceland 230 V 400 V 50Hz
India 230 V 400 V 50Hz
Indonesia 220 V 380 V 50Hz
Iran 220 V 400 V 50Hz
Iraq 230 V 400 V 50Hz
Ireland 230 V 415 V 50Hz
Isle of Man 240 V 415 V 50Hz
Israel 230 V 400 V 50Hz
Italy 230 V 400 V 50Hz
Jamaica 110 V 190 V 50Hz
Japan 100 V
200 V
200 V
415 V
50 Hz
60 Hz
Jersey 230 V 415 V 50Hz
Jordan 230 V 400 V 50Hz
Kazakhstan 220 V 380 V 50Hz
Kenya 240 V 415 V 50Hz
Kiribati 240 V [unavailable] 50Hz
Autonomous Province of Kosovo and Metohija 230 V 230 V
400 V
50Hz
Kuwait 240 V 415 V 50Hz
Kyrgyzstan 220 V 380 V 50Hz
Laos 230 V 400 V 50Hz
Latvia 230 V 400 V 50Hz
Lebanon 220 V 400 V 50Hz
Lesotho 220 V 380 V 50Hz
Liberia 120 V
240 V
208 V
-
60 Hz
50 Hz
Libya 127 V 400 V 50Hz
Lithuania 230 V 400 V 50Hz
Liechtenstein 230 V 400 V 50Hz
Luxembourg 230 V 400 V 50Hz
Macau 230 V 380 V 50Hz
Madagascar 127 V
220 V
380 V 50Hz
Malawi 230 V 400 V 50Hz
Malaysia 230 V 400 V 50Hz
Maldives 230 V 400 V 50Hz
Mali 220 V 380 V 50Hz
Malta 230 V 400 V 50Hz
Martinique 220 V 380 V 50Hz
Mauritania 220 V 220 V 50Hz
Mauritius 230 V 400 V 50Hz
Mexico 127 V 220 V
480 V
60Hz
Federated States of Micronesia 120 V [unavailable] 60Hz
Moldova 220 V 400 V 50Hz
Monaco 230 V 400 V 50Hz
Mongolia 220 V 400 V 50Hz
Montenegro 230 V 400 V 50Hz
Montserrat 120 V
230 V
400 V 60Hz
Morocco 127 V
220 V
380 V 50Hz
Mozambique 220 V 380 V 50Hz
Myanmar 230 V 400 V 50Hz
Namibia 220 V 380 V 50Hz
Nauru 240 V 415 V 50Hz
Nepal 230 V 400 V 50Hz
Netherlands 230 V 400 V 50Hz
New Caledonia 220 V 380 V 50Hz
New Zealand 230 V 400 V 50Hz
Nicaragua 120 V 208 V 60Hz
Niger 220 V 380 V 50Hz
Nigeria 240 V 415 V 50Hz
North Korea 110 V
220 V
380 V
-
60 Hz
50 Hz
North Macedonia 230 V
400 V 50Hz
Norway 230 V
230 V
400 V
50Hz
Oman 240 V 415 V 50Hz
Pakistan 230 V 400 V 50Hz
Palau 120 V 208 V 60Hz
Panama 110 V
120 V
240 V 60Hz
Papua New Guinea 240 V 415 V 50Hz
Paraguay 220 V 380 V 50Hz
Peru 220 V 380 V
440 V
60Hz
Philippines 230 V 220 V
440 V
60Hz
Poland 230 V 400 V 50Hz
Portugal 230 V 400 V 50Hz
Puerto Rico 120 V 480 V 60Hz
Qatar 240 V 415 V 50Hz
Réunion 220 V 400 V 50Hz
Romania 230 V 400 V 50Hz
Russia 230 V 380 V 50Hz
Rwanda 230 V 400 V 50Hz
Saint Helena, Ascension and Tristan da Cunha 220-240 V [unavailable] 50Hz
Collectivity of Saint Martin 220 V [unavailable] 60Hz
Sint Maarten (Dutch) 120 V 220 V 60Hz
St. Kitts and Nevis 110 V
230 V
400 V 60Hz
St. Lucia 240 V 400 V 50Hz
Saint Pierre and Miquelon 230 V 50Hz
St. Vincent and the Grenadines 230 V 400 V 50Hz
Samoa 230 V 400 V 50Hz
San Marino 230 V 400 V 50Hz
São Tomé and Príncipe 220 V 400 V 50Hz
Saudi Arabia 220 V 400 V 60Hz
Senegal 230 V 400 V 50Hz
Serbia 230 V 400 V 50Hz
Seychelles 240 V 240 V 50Hz
Sierra Leone 230 V 400 V 50Hz
Singapore 230 V 400 V 50Hz
Slovakia 230 V 400 V 50Hz
Slovenia 230 V 400 V 50Hz
Solomon Islands 220 V [unavailable] 50Hz
Somalia 220 V 380 V 50Hz
South Africa 230 V 400 V 50Hz
South Korea 220 V 380 V 60Hz
Spain 230 V 400 V 50Hz
Sri Lanka 230 V 400 V 50Hz
Sudan 230 V 400 V 50Hz
Suriname 127 V 220 V
400 V
60Hz
Sweden 230 V 400 V 50Hz
Switzerland 230 V 400 V 50Hz
Syria 220 V 380 V 50Hz
Taiwan 110 V
220 V
110 V
380 V
60Hz
Tajikistan 220 V 380 V 50Hz
Tanzania 230 V 415 V 50Hz
Thailand 220 V 400 V 50Hz
Timor-Leste (East Timor) 220 V 380 V 50Hz
Togo 220 V 380 V 50Hz
Tonga 240 V 415 V 50Hz
Trinidad & Tobago 115 V 115/230 V
230/400 V
60Hz
Tunisia 230 V 400 V 50Hz
Turkey 230 V 400 V 50Hz
Turkmenistan 220 V 380 V 50Hz
Tuvalu 220 V 50Hz
Uganda 240 V 415 V 50Hz
Ukraine 220 V 380 V 50Hz
United Arab Emirates 220 V 400 V 50Hz
United Kingdom 230 V 415 V 50Hz
United States 120 V
120 V
240 V
240 V
120/208 V
277/480 V
120/240 V
240 V
480 V
60Hz
U.S. Virgin Islands 110 V 190 V 60Hz
Uruguay 230 V 380 V 50Hz
Uzbekistan 220 V 380 V 50Hz
Vanuatu 220 V 400 V 50Hz
Venezuela 120 V 115/220 V
220/440 V
230/460 V
60Hz
Vietnam 220 V 380 V 50Hz
Yemen 230 V 400 V 50Hz
Zambia 230 V 400 V 50Hz
Zimbabwe 220 V 415 V 50Hz

AC or DC?

If so many appliances internally function on DC, why not just use direct current for every circuit then? Each one has different characterstics that make it useful for certain applications. AC has important properties that make it useful in the electrical grid. It is cheaper to transmit AC over long distances as it is easier to change between high and low voltages. High voltages are ideal for long distance transmission as they require less current, which means you can use smaller wires. DC works well in off-grid applications as PV modules produce DC and batteries store energy in DC, meaning that using AC appliances requires the added expense and loss of efficiency that come with an inverter.