Voltage units converter
Converts voltage from one unit to another e.g. from milivolts (mV) to volts (V) or vice versa.

# Beta version

BETA TEST VERSION OF THIS ITEM
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# Inputs data - value and unit, which we're going to convert

 Value Unit yottavolt [YV]zettavolt [ZV]exavolt [EV]petavolt [PV]teravolt [TV]gigavolt [GV]megavolt [MV]kilovolt [kV]hektovolt [hV]volt [V]decivolt [dV]centivolt [cV]milivolt [mV]microvolt [µV]nanovolt [nV]pikovolt [pV]femtovolt [fV]attovolt [aV]zeptovolt [zV]yoctovolt [yV]stat (ESU) [statV]ab (EMU) [abV] Decimals 0123456789

# SI

 Unit Symbol Symbol(plain text) Value Notes yottavolt Show source$YV$ YV 1×10-24 Derived electric voltage unit in SI system. One yottavolt is equal to septylion of volts: $1\ YV= 10^{24}\ V$ zettavolt Show source$ZV$ ZV 1×10-21 Derived electric voltage unit in SI system. One zettavolt is equal to sextillion of volts: $1\ ZV= 10^{21}\ V$ exavolt Show source$EV$ EV 1×10-18 Derived electric voltage unit in SI system. One exavolt is equal to quintillion of volts: $1\ EV= 10^{18}\ V$ petavolt Show source$PV$ PV 1×10-15 Derived electric voltage unit in SI system. One petavolt is equal to quadrillion of volts: $1\ PV= 10^{15}\ V$ teravolt Show source$TV$ TV 1×10-12 Derived electric voltage unit in SI system. One teravolt is equal to trillion of volts: $1\ TV= 10^{12}\ V$ gigavolt Show source$GV$ GV 1×10-9 Derived electric voltage unit in SI system. One gigavolt is equal to billion of volts: $1\ GV= 10^{9}\ V$ megavolt Show source$MV$ MV 0.000001 Derived electric voltage unit in SI system. One megavolt is equal to million of volts: $1\ MV=1000000\ V= 10^{6}\ V$ kilovolt Show source$kV$ kV 0.001 Derived electric voltage unit in SI system. One kilovolt is equal to thausand of volts: $1\ kV=1000\ V= 10^{3}\ V$ hektovolt Show source$hV$ hV 0.01 Derived electric voltage unit in SI system. One hektovolt is equal to hundred of volts: $1\ hV=100\ V= 10^{2}\ V$ volt Show source$V$ V 1 The basic unit of electric potential, electric voltage and electromotive force (EMF) in the SI system. Electric potential between two points of a conducting wire is one volt (1 V), when an electric current of one ampere (1 A) dissipates one watt of power (1 W) between those points.$1\ V = \frac{1\ W}{1\ A}$ decivolt Show source$dV$ dV 10 Derived electric voltage unit in SI system. One decivolt is equal to one tenth of volt: $1\ dV=0.1\ V= 10^{-1}\ V$ centivolt Show source$cV$ cV 100 Derived electric voltage unit in SI system. One centivolt is equal to one hundredth of volt: $1\ cV=0.01\ V= 10^{-2}\ V$ milivolt Show source$mV$ mV 1000 Derived electric voltage unit in SI system. One milivolt is equal to one thousandth of volt: $1\ mV=0.001\ V= 10^{-3}\ V$ microvolt Show source$\mu V$ µV 1000000 Derived electric voltage unit in SI system. One microvolt is equal to one millionth of volt: $1\ \mu V=0.000001\ V= 10^{-6}\ V$ nanovolt Show source$nV$ nV 1000000000 Derived electric voltage unit in SI system. One nanovolt is equal to one billionth of volt: $1\ nV= 10^{-9}\ V$ pikovolt Show source$pV$ pV 1×1012 Derived electric voltage unit in SI system. One pikovolt is equal to one trillionth of volt: $1\ pV= 10^{-12}\ V$ femtovolt Show source$fV$ fV 1×1015 Derived electric voltage unit in SI system. One femtovolt is equal to one quadrillionth of volt: $1\ fV= 10^{-15}\ V$ attovolt Show source$aV$ aV 1×1018 Derived electric voltage unit in SI system. One attovolt is equal to one quintillionth of volt: $1\ aV= 10^{-18}\ V$ zeptovolt Show source$zV$ zV 1×1021 Derived electric voltage unit in SI system. One zeptovolt is equal to one sextillionth of volt: $1\ zV= 10^{-21}\ V$ yoctovolt Show source$yV$ yV 1×1024 Derived electric voltage unit in SI system. One yoctovolt is equal to one septillionth of volt: $1\ yV= 10^{-24}\ V$

# CGS units (centimetre-gram-second)

 Unit Symbol Symbol(plain text) Value Notes stat (ESU) Show source$statV$ statV 0.003335641 Historical unit of electric potential, electric voltage and electromotive force (EMF) in the electrostatic centimeter-gram-second system (CGS-ESU). The voltage between two points A and B is one statvolt (1 statV), if the transfer of an electric charge of one statcoulomb (1 statC) from point A to point B requires work of one erg (1 erg).$1\ statV = \frac{1\ erg}{1\ statC} = \frac{10^{-7}\ J}{\frac{1}{10\ c}\ C} = c \cdot 10^{-6} \ V \approx 299.792458\ V$Where: c - the speed of light in vacuum. ab (EMU) Show source$abV$ abV 100000000 Historical unit of electric potential, electric voltage and electromotive force (EMF) in the electromagnetic centimeter-gram-second system (CGS-EMU). The voltage between two points A and B is one abvolt (1 abV), if the transfer of an electric charge of one abcoulomb (1 abC) from point A to point B requires work of one erg (1 erg).$1\ abV = \frac{1\ erg}{1\ abC} = \frac{10^{-7}\ J}{10\ C} = 10^{-8} \ V = 10 nV$

# Some facts

• The electric potential in point is the ratio of the amount of work (done by electrical force) that should be done in order to move the electric charge from this point to the infinity to the value of this charge:
$\varphi(x_0) = \dfrac{W_{x_0 \rightarrow \infty}}{q}$
where:
• $\varphi(x_0)$ - electric potential at $x_0$,
• $W_{x_0 \rightarrow \infty}$ - work to be done to move the charge q from point $x_0$ to infinity,
• $q$ - charge value.
• The electrical voltage is the electrical potential difference measured in two selected points:
$U_{AB} = \varphi_B - \varphi_A$
where:
• $U_{AB}$ - electric voltage beetwen points A and B,
• $\varphi_A$ - electric potential in point A,
• $\varphi_B$ - electric potential in point B.
• ⓘ Remember: Electric voltage always applies to two points. When we talk briefly about voltage, in practice we have in mind the voltage between the points (or in other words: the voltage in relation to the reference point). In the case of electronic circuits, the reference point is usually the so-called ground, against which all voltages (potentials) in the circuit are measured.
• The basic unit of the electrical voltage is one volt (1V).
• The electrical voltage is usually denoted with a capital letter U or V.
• The device for measuring the voltage is voltmeter.

# How to convert

• Enter the number to field "value" - enter the NUMBER only, no other words, symbols or unit names. You can use dot (.) or comma (,) to enter fractions.
Examples:
• 1000000
• 123,23
• 999.99999
• Find and select your starting unit in field "unit". Some unit calculators have huge number of different units to select from - it's just how complicated our world is...
• And... you got the result in the table below. You'll find several results for many different units - we show you all results we know at once. Just find the one you're looking for.