Shobhit Dimri
Bipin Tripathi Kumaon Institute of Technology (BTKIT), Dwarahat
Shobhit Dimri has created this Calculator and 100+ more calculators!
Urvi Rathod
Vishwakarma Government Engineering College (VGEC), Ahmedabad
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11 Other formulas that you can solve using the same Inputs

Decay of Current in LR Circuit
Decay of current in L-R circuit=Current when T=0*e^(-Time Period Of Progressive Wave/(Inductance/Resistance)) GO
Growth of Current in LR Circuit
Growth of current in LR circuit=(e/Resistance)*(1-e^(-Time/(Inductance/Resistance))) GO
Capacitance For The Parallel RLC Circuit When Q-Factor Is Given
Capacitance=(Inductance*Quantity Factor*Quantity Factor)/(Resistance*Resistance) GO
Capacitance For The Series RLC Circuit When Q-Factor Is Given
Capacitance=Inductance/(Quantity Factor*Quantity Factor*Resistance*Resistance) GO
Self Resonance Frequency
Self resonance frequency=1/(2*3.14*(Inductance*Transition Capacitance)^1/2) GO
Resistance For The Series RLC Circuit When Q-Factor Is Given
Resistance=sqrt(Inductance)/(Quantity Factor*sqrt(Capacitance)) GO
Q-factor For The Series RLC Circuit
Quantity Factor=sqrt(Inductance)/(Resistance*sqrt(Capacitance)) GO
Resistance For The parallel RLC Circuit When Q-Factor Is Given
Resistance=Quantity Factor/(sqrt(Capacitance/Inductance)) GO
Q-factor For The Parallel RLC Circuit
Quantity Factor=Resistance*(sqrt(Capacitance/Inductance)) GO
Time Constant of LR Circuit
Time constant of L-R circuit=Inductance/Resistance GO
Time Constant For The RC Circuit When The Inductance Is Given
Time constant=Inductance/Resistance GO

4 Other formulas that calculate the same Output

Current flowing through the induced channel in the transistor
output current =(Mobility of electrons at the surface of channel*Oxide Capacitance*(Width of the Channel/Length of the Channel)*Effective voltage or overdrive voltage)*Voltage between drain and source GO
Current flowing through the induced channel in the transistor when Vgs is given
output current =(Mobility of electron*Oxide Capacitance*(Width of the Channel/Length of the Channel)*(Voltage across the oxide-Threshold voltage))*Saturation voltage between drain and source GO
Output Current For Boost Regulator (DCM)
output current =((Input voltage-Output voltage )*duty Cycle*time commutation*(duty Cycle+delta))/(2*Inductance) GO
Output Current For Buck Regulator (DCM)
output current =((Input voltage-Output voltage )*duty Cycle*time commutation*(duty Cycle+delta))/(2*Inductance) GO

Output Current For Buck-Boost Regulator (DCM) Formula

output current =Input voltage^2*duty Cycle^2*time commutation/(2*Output voltage *Inductance)
i=V<sub>i</sub>^2*D^2*T.C/(2*V<sub>o</sub>*L)
More formulas
Output Voltage For Buck-Boost Regulator (CCM) GO
Input Voltage For Buck-Boost Regulator (CCM) GO
Duty Cycle For Buck-Boost Regulator (CCM) GO
Output Voltage For Buck-Boost Regulator (DCM) GO
Inductor Value For Buck-Boost Regulator (DCM) GO
Commutation Period For Buck-Boost Regulator (DCM) GO

What is Buck-Boost Regulator (DCM)?

The Buck-Boost Regulator (DCM) is a type of DC-to-DC converter that has an output voltage magnitude that is either greater than or less than the input voltage Magnitude.

How to Calculate Output Current For Buck-Boost Regulator (DCM)?

Output Current For Buck-Boost Regulator (DCM) calculator uses output current =Input voltage^2*duty Cycle^2*time commutation/(2*Output voltage *Inductance) to calculate the output current , The Output Current For Buck-Boost Regulator (DCM) formula is defined as the maximum current that can be supplied to the load. . output current and is denoted by i symbol.

How to calculate Output Current For Buck-Boost Regulator (DCM) using this online calculator? To use this online calculator for Output Current For Buck-Boost Regulator (DCM), enter Input voltage (Vi), duty Cycle (D), time commutation (T.C), Output voltage (Vo) and Inductance (L) and hit the calculate button. Here is how the Output Current For Buck-Boost Regulator (DCM) calculation can be explained with given input values -> 1.000E-5 = 1^2*0.1^2*1/(2*10*50).

FAQ

What is Output Current For Buck-Boost Regulator (DCM)?
The Output Current For Buck-Boost Regulator (DCM) formula is defined as the maximum current that can be supplied to the load. and is represented as i=Vi^2*D^2*T.C/(2*Vo*L) or output current =Input voltage^2*duty Cycle^2*time commutation/(2*Output voltage *Inductance). Input voltage is the voltage supplied to the device, A duty cycle or power cycle is the fraction of one period in which a signal or system is active, The time commutation is the process of transferring current from one connection to another within an electric circuit, Output voltage signifies the voltage of the signal after it has been amplified. and Inductance is the tendency of an electric conductor to oppose a change in the electric current flowing through it.
How to calculate Output Current For Buck-Boost Regulator (DCM)?
The Output Current For Buck-Boost Regulator (DCM) formula is defined as the maximum current that can be supplied to the load. is calculated using output current =Input voltage^2*duty Cycle^2*time commutation/(2*Output voltage *Inductance). To calculate Output Current For Buck-Boost Regulator (DCM), you need Input voltage (Vi), duty Cycle (D), time commutation (T.C), Output voltage (Vo) and Inductance (L). With our tool, you need to enter the respective value for Input voltage, duty Cycle, time commutation, Output voltage and Inductance and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate output current ?
In this formula, output current uses Input voltage, duty Cycle, time commutation, Output voltage and Inductance. We can use 4 other way(s) to calculate the same, which is/are as follows -
  • output current =(Mobility of electrons at the surface of channel*Oxide Capacitance*(Width of the Channel/Length of the Channel)*Effective voltage or overdrive voltage)*Voltage between drain and source
  • output current =(Mobility of electron*Oxide Capacitance*(Width of the Channel/Length of the Channel)*(Voltage across the oxide-Threshold voltage))*Saturation voltage between drain and source
  • output current =((Input voltage-Output voltage )*duty Cycle*time commutation*(duty Cycle+delta))/(2*Inductance)
  • output current =((Input voltage-Output voltage )*duty Cycle*time commutation*(duty Cycle+delta))/(2*Inductance)
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