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## Credits

Birsa Institute of Technology (BIT), Sindri
Payal Priya has created this Calculator and 500+ more calculators!
National Institute Of Technology (NIT), Hamirpur
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## Total power supply of class B stage Solution

STEP 0: Pre-Calculation Summary
Formula Used
total_power = (2*Peak Voltage*Supply Voltage)/(pi*Load resistance)
Pt = (2*Vm*Vi)/(pi*Rl)
This formula uses 1 Constants, 3 Variables
Constants Used
pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288
Variables Used
Peak Voltage - Peak Voltage is the peak or maximum voltage of a circuit/ rectifier. (Measured in Volt)
Supply Voltage - Supply Voltage is the input voltage source which flows through the zener diode. (Measured in Volt)
Load resistance - Load resistance is the resistance value of load given for the network (Measured in Kilohm)
STEP 1: Convert Input(s) to Base Unit
Peak Voltage: 10 Volt --> 10 Volt No Conversion Required
Supply Voltage: 12 Volt --> 12 Volt No Conversion Required
Load resistance: 1 Kilohm --> 1000 Ohm (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Pt = (2*Vm*Vi)/(pi*Rl) --> (2*10*12)/(pi*1000)
Evaluating ... ...
Pt = 0.0763943726841098
STEP 3: Convert Result to Output's Unit
0.0763943726841098 Watt --> No Conversion Required
FINAL ANSWER
0.0763943726841098 Watt <-- Total power
(Calculation completed in 00.015 seconds)

## < 10+ Class B Output Stage Calculators

Efficiency of class B stage
overall_efficiency = ((1/2)*((Peak Voltage)^2/Load Resistance)/(2/pi)*((Peak Voltage*Supply Voltage)/Load resistance)) Go
Total power supply of class B stage
total_power = (2*Peak Voltage*Supply Voltage)/(pi*Load resistance) Go
Load resistance of class B stage
load_resistance = (2*Peak Voltage*Supply Voltage)/(pi*Total power) Go
Power drain from positive sine wave
power = (Peak Voltage*Supply Voltage)/(pi*Load resistance) Go
Power drawn from negative sine wave
power = (Peak Voltage*Supply Voltage)/(pi*Load resistance) Go
Efficiency of the class B output stage
overall_efficiency = (pi/4)*(Peak Voltage/Supply Voltage) Go
Output sinusoid peak voltage of class B stage
peak_voltage = sqrt(2*Average load power*Load resistance) Go
Maximum average power from a class B output stage
max_power_developed = 1/2*((Supply Voltage)^2/Load resistance) Go
Average load-power of class B stage
average_load_power = 1/2*((Peak Voltage)^2/Load resistance) Go
Average power dissipation in class B stage in terms of supply power
power_dissipated = Supply Power-Average load power Go

### Total power supply of class B stage Formula

total_power = (2*Peak Voltage*Supply Voltage)/(pi*Load resistance)
Pt = (2*Vm*Vi)/(pi*Rl)

## What is a Class B amplifier?

Class B amplifier is a type of power amplifier where the active device (transistor) conducts only for the one-half cycle of the input signal. Since the active device is switched off for half the input cycle, the active device dissipates less power and hence the efficiency is improved.

## How to Calculate Total power supply of class B stage?

Total power supply of class B stage calculator uses total_power = (2*Peak Voltage*Supply Voltage)/(pi*Load resistance) to calculate the Total power, The Total power supply of class B stage formula is defined as a term used in audio electronics to rate the power of an audio system. Total system power refers to the total power consumption of the unit, rather than the power handling of the speakers or the power output of the amplifier. Total power and is denoted by Pt symbol.

How to calculate Total power supply of class B stage using this online calculator? To use this online calculator for Total power supply of class B stage, enter Peak Voltage (Vm), Supply Voltage (Vi) and Load resistance (Rl) and hit the calculate button. Here is how the Total power supply of class B stage calculation can be explained with given input values -> 0.076394 = (2*10*12)/(pi*1000).

### FAQ

What is Total power supply of class B stage?
The Total power supply of class B stage formula is defined as a term used in audio electronics to rate the power of an audio system. Total system power refers to the total power consumption of the unit, rather than the power handling of the speakers or the power output of the amplifier and is represented as Pt = (2*Vm*Vi)/(pi*Rl) or total_power = (2*Peak Voltage*Supply Voltage)/(pi*Load resistance). Peak Voltage is the peak or maximum voltage of a circuit/ rectifier, Supply Voltage is the input voltage source which flows through the zener diode and Load resistance is the resistance value of load given for the network.
How to calculate Total power supply of class B stage?
The Total power supply of class B stage formula is defined as a term used in audio electronics to rate the power of an audio system. Total system power refers to the total power consumption of the unit, rather than the power handling of the speakers or the power output of the amplifier is calculated using total_power = (2*Peak Voltage*Supply Voltage)/(pi*Load resistance). To calculate Total power supply of class B stage, you need Peak Voltage (Vm), Supply Voltage (Vi) and Load resistance (Rl). With our tool, you need to enter the respective value for Peak Voltage, Supply Voltage and Load resistance 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 Total power?
In this formula, Total power uses Peak Voltage, Supply Voltage and Load resistance. We can use 10 other way(s) to calculate the same, which is/are as follows -
• average_load_power = 1/2*((Peak Voltage)^2/Load resistance)
• peak_voltage = sqrt(2*Average load power*Load resistance)
• power = (Peak Voltage*Supply Voltage)/(pi*Load resistance)
• power = (Peak Voltage*Supply Voltage)/(pi*Load resistance)
• total_power = (2*Peak Voltage*Supply Voltage)/(pi*Load resistance)
• load_resistance = (2*Peak Voltage*Supply Voltage)/(pi*Total power)
• overall_efficiency = ((1/2)*((Peak Voltage)^2/Load Resistance)/(2/pi)*((Peak Voltage*Supply Voltage)/Load resistance))
• overall_efficiency = (pi/4)*(Peak Voltage/Supply Voltage)
• max_power_developed = 1/2*((Supply Voltage)^2/Load resistance)
• power_dissipated = Supply Power-Average load power
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