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
Urvi Rathod has verified this Calculator and 500+ more calculators!

11 Other formulas that you can solve using the same Inputs

Voltage across output in an amplifier
Output voltage =Open circuit voltage gain*Input voltage*(Load resistance/(Load resistance+Output resistance)) GO
Current in finite open-loop gain in operational amplifier
Electric Current=(Input voltage+Output voltage /Open Loop Gain of an Operational Amplifier)/Resistance GO
Output voltage of Finite Open-Loop Gain of an operational amplifier
Output Voltage=(Electric Current*Resistance-Input voltage)*Open Loop Gain of an Operational Amplifier GO
Output voltage of noninverting configuration
Output voltage of noninverting configuration=Input voltage+(Input voltage/Resistance)*Resistance GO
Shunt Current (LSR)
Shunt Field Current=((Input voltage-Output voltage )/Shunt field resistance)-Load current GO
Output Voltage (LSR)
Output voltage =Input voltage-(Load current+Shunt Field Current)*Shunt field resistance GO
Load Current (LSR)
Load current=(Input voltage-Output voltage /Shunt field resistance)-Shunt Field Current GO
Discharging current of dv/dt protection thyristor circuits
Discharging current of thyristor circuit=Input voltage/((Resistance+Resistance)) GO
Closed-loop gain of an operational amplifier
Closed loop gain =Output voltage /Input voltage GO
Short-Circuit Transconductance
Transconductance=output current /Input voltage GO
Open-Circuit Voltage Gain
voltage gain=Output voltage /Input voltage GO

11 Other formulas that calculate the same Output

Output voltage when MOSFET acts as an amplifier
Output voltage =Supply Voltage-1/2*MOSFET transconductance parameter*Load Resistance*(Voltage across the oxide-Threshold voltage)^2 GO
Voltage across output in an amplifier
Output voltage =Open circuit voltage gain*Input voltage*(Load resistance/(Load resistance+Output resistance)) GO
Output Voltage For Boost Regulator (DCM)
Output voltage =Input voltage+((Input voltage^2*duty Cycle^2*time commutation)/2*Inductance*output current ) GO
Output Voltage For Buck Regulator (DCM)
Output voltage =Input voltage*(1+(Input voltage*duty Cycle^2*time commutation/2*Inductance*output current )) GO
Output Voltage For Buck-Boost Regulator (DCM)
Output voltage =Input voltage^2*duty Cycle^2*time commutation/(2*Inductance*output current ) GO
Output Voltage (LSR)
Output voltage =Input voltage-(Load current+Shunt Field Current)*Shunt field resistance GO
Output Voltage of BJT Amplifier
Output voltage =Supply Voltage-Drain current of BJT *Load Resistance GO
Output Voltage For Buck-Boost Regulator (CCM)
Output voltage =-Input voltage*duty Cycle/(1-duty Cycle) GO
Output Voltage For Cuk Regulator
Output voltage =-Input voltage*duty Cycle/(1-duty Cycle) GO
Output Voltage For Buck Regulator (CCM)
Output voltage =duty Cycle*Input voltage GO
Output voltage V<sub>o</sub> of a difference amplifier
Output voltage =(R2/R1)*(vl2 -vl1) GO

Output Voltage For Boost Regulator (CCM) Formula

Output voltage =Input voltage/(1-duty Cycle)
V<sub>o</sub>=V<sub>i</sub>/(1-D)
More formulas
Input Voltage For Boost Regulator (CCM) GO
Duty Cycle For Boost Regulator (CCM) GO
Duty Cycle For Boost Regulator (DCM) GO
Output Voltage For Boost Regulator (DCM) GO
Commutation Period For Boost Regulator (DCM) GO
Output Current For Boost Regulator (DCM) GO
Inductor Value For Boost Regulator (DCM) GO

What is Boost Regulator(CCM)?

High-power boost converters are designed to operate in CCM, and low-power boosts operate in DCM. This is because CCM allows lower peak currents throughout the entire circuit, which typically results in lower circuit losses.

How to Calculate Output Voltage For Boost Regulator (CCM)?

Output Voltage For Boost Regulator (CCM) calculator uses Output voltage =Input voltage/(1-duty Cycle) to calculate the Output voltage , Output Voltage For Boost Regulator (CCM) is the output voltage is the voltage released by a device, such as a voltage regulator or Boost Regulator. . Output voltage and is denoted by Vo symbol.

How to calculate Output Voltage For Boost Regulator (CCM) using this online calculator? To use this online calculator for Output Voltage For Boost Regulator (CCM), enter Input voltage (Vi) and duty Cycle (D) and hit the calculate button. Here is how the Output Voltage For Boost Regulator (CCM) calculation can be explained with given input values -> 1.111111 = 1/(1-0.1).

FAQ

What is Output Voltage For Boost Regulator (CCM)?
Output Voltage For Boost Regulator (CCM) is the output voltage is the voltage released by a device, such as a voltage regulator or Boost Regulator. and is represented as Vo=Vi/(1-D) or Output voltage =Input voltage/(1-duty Cycle). Input voltage is the voltage supplied to the device and A duty cycle or power cycle is the fraction of one period in which a signal or system is active.
How to calculate Output Voltage For Boost Regulator (CCM)?
Output Voltage For Boost Regulator (CCM) is the output voltage is the voltage released by a device, such as a voltage regulator or Boost Regulator. is calculated using Output voltage =Input voltage/(1-duty Cycle). To calculate Output Voltage For Boost Regulator (CCM), you need Input voltage (Vi) and duty Cycle (D). With our tool, you need to enter the respective value for Input voltage and duty Cycle 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 voltage ?
In this formula, Output voltage uses Input voltage and duty Cycle. We can use 11 other way(s) to calculate the same, which is/are as follows -
  • Output voltage =Open circuit voltage gain*Input voltage*(Load resistance/(Load resistance+Output resistance))
  • Output voltage =(R2/R1)*(vl2 -vl1)
  • Output voltage =Input voltage-(Load current+Shunt Field Current)*Shunt field resistance
  • Output voltage =duty Cycle*Input voltage
  • Output voltage =Input voltage*(1+(Input voltage*duty Cycle^2*time commutation/2*Inductance*output current ))
  • Output voltage =Input voltage+((Input voltage^2*duty Cycle^2*time commutation)/2*Inductance*output current )
  • Output voltage =-Input voltage*duty Cycle/(1-duty Cycle)
  • Output voltage =Input voltage^2*duty Cycle^2*time commutation/(2*Inductance*output current )
  • Output voltage =-Input voltage*duty Cycle/(1-duty Cycle)
  • Output voltage =Supply Voltage-Drain current of BJT *Load Resistance
  • Output voltage =Supply Voltage-1/2*MOSFET transconductance parameter*Load Resistance*(Voltage across the oxide-Threshold voltage)^2
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