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Total Current in Miller Capacitance Calculator

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Primary Voltage refers to the voltage applied to the primary winding of a transformer or a similar electrical device.Primary Voltage [Vp]
+10%
-10%
Voltage Gain refers to the mathematical relationship or equation that describes how an amplifier modifies the input voltage to produce an output voltage.Voltage Gain [Av]
+10%
-10%
Total Impedance refers to the overall opposition or resistance to the flow of alternating current (AC) in an electrical circuit.Total Impedance [Zt]
+10%
-10%
Total Current refers to the combined or sum total of all currents flowing through a circuit or a specific point within a circuit.Total Current in Miller Capacitance [it]
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Formula

Total Current in Miller Capacitance

Formula
`"i"_{"t"} = "V"_{"p"}*(1-("A"_{"v"}))/"Z"_{"t"}`

Example
`"215.8537mA"="23.6V"*(1-("-10.25"))/"1.23kΩ"`

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Total Current in Miller Capacitance Solution

STEP 0: Pre-Calculation Summary
Formula Used
Total Current = Primary Voltage*(1-(Voltage Gain))/Total Impedance
it = Vp*(1-(Av))/Zt
This formula uses 4 Variables
Variables Used
Total Current - (Measured in Ampere) - Total Current refers to the combined or sum total of all currents flowing through a circuit or a specific point within a circuit.
Primary Voltage - (Measured in Volt) - Primary Voltage refers to the voltage applied to the primary winding of a transformer or a similar electrical device.
Voltage Gain - Voltage Gain refers to the mathematical relationship or equation that describes how an amplifier modifies the input voltage to produce an output voltage.
Total Impedance - (Measured in Ohm) - Total Impedance refers to the overall opposition or resistance to the flow of alternating current (AC) in an electrical circuit.
STEP 1: Convert Input(s) to Base Unit
Primary Voltage: 23.6 Volt --> 23.6 Volt No Conversion Required
Voltage Gain: -10.25 --> No Conversion Required
Total Impedance: 1.23 Kilohm --> 1230 Ohm (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
it = Vp*(1-(Av))/Zt --> 23.6*(1-((-10.25)))/1230
Evaluating ... ...
it = 0.215853658536585
STEP 3: Convert Result to Output's Unit
0.215853658536585 Ampere -->215.853658536585 Milliampere (Check conversion ​here)
FINAL ANSWER
215.853658536585 215.8537 Milliampere <-- Total Current
(Calculation completed in 00.004 seconds)
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Home » Engineering » Electronics » Amplifiers » Amplifier Functions and Network » Miller’s Theorem » Total Current in Miller Capacitance

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Created by Ritwik Tripathi
Vellore Institute of Technology (VIT Vellore), Vellore
Ritwik Tripathi has created this Calculator and 10+ more calculators!
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Chandigarh University (CU), Punjab
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6 Miller’s Theorem Calculators

Miller Capacitance
​ Go Miller Capacitance = Gate to Drain Capacitance*(1+1/(Transconductance*Load Resistance))
Total Current in Miller Capacitance
​ Go Total Current = Primary Voltage*(1-(Voltage Gain))/Total Impedance
Current at Primary Node of Amplifier
​ Go Current in Primary Conductor = A-Phase Voltage/Impedance of Primary Winding
Change in Drain Current
​ Go Change in Drain Current = -A-Phase Voltage/Impedance of Secondary Winding
Secondary Impedance in Miller Capacitance
​ Go Impedance of Secondary Winding = Total Impedance/(1-(1/Voltage Gain))
Primary Impedance in Miller Capacitance
​ Go Impedance of Primary Winding = Total Impedance/(1-(Voltage Gain))

Total Current in Miller Capacitance Formula

Total Current = Primary Voltage*(1-(Voltage Gain))/Total Impedance
it = Vp*(1-(Av))/Zt

What is the need of Miller Capacitance in a circuit?

Miller capacitance arises in transistor amplifier circuits due to the interaction between input and output terminals. It affects circuit stability and bandwidth by amplifying the effective input capacitance, leading to phase shifts and frequency response alterations, necessitating compensation techniques for stable and efficient high-frequency operation.

How to Calculate Total Current in Miller Capacitance?

Total Current in Miller Capacitance calculator uses Total Current = Primary Voltage*(1-(Voltage Gain))/Total Impedance to calculate the Total Current, The Total Current in Miller Capacitance formula is defined as the sum of currents flowing into or out of the Miller capacitance in electronic circuits, particularly in amplifier configurations. Total Current is denoted by it symbol.

How to calculate Total Current in Miller Capacitance using this online calculator? To use this online calculator for Total Current in Miller Capacitance, enter Primary Voltage (Vp), Voltage Gain (Av) & Total Impedance (Zt) and hit the calculate button. Here is how the Total Current in Miller Capacitance calculation can be explained with given input values -> 215853.7 = 23.6*(1-((-10.25)))/1230.

FAQ

What is Total Current in Miller Capacitance?
The Total Current in Miller Capacitance formula is defined as the sum of currents flowing into or out of the Miller capacitance in electronic circuits, particularly in amplifier configurations and is represented as it = Vp*(1-(Av))/Zt or Total Current = Primary Voltage*(1-(Voltage Gain))/Total Impedance. Primary Voltage refers to the voltage applied to the primary winding of a transformer or a similar electrical device, Voltage Gain refers to the mathematical relationship or equation that describes how an amplifier modifies the input voltage to produce an output voltage & Total Impedance refers to the overall opposition or resistance to the flow of alternating current (AC) in an electrical circuit.
How to calculate Total Current in Miller Capacitance?
The Total Current in Miller Capacitance formula is defined as the sum of currents flowing into or out of the Miller capacitance in electronic circuits, particularly in amplifier configurations is calculated using Total Current = Primary Voltage*(1-(Voltage Gain))/Total Impedance. To calculate Total Current in Miller Capacitance, you need Primary Voltage (Vp), Voltage Gain (Av) & Total Impedance (Zt). With our tool, you need to enter the respective value for Primary Voltage, Voltage Gain & Total Impedance and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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