Bipin Tripathi Kumaon Institute of Technology
**
(BTKIT)**,
Dwarahat

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Vishwakarma Government Engineering College
**
(VGEC)**,
Ahmedabad

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STEP 0: Pre-Calculation Summary

Formula Used

transfer_function_pll = Pll Output Clock Phase/input reference clock phaseH(s) = ΔΦout(s)/ΔΦin(s)

This formula uses 2 Variables

Variables Used

Pll Output Clock Phase- Pll Output Clock Phase is output clock phaseinput reference clock phase- input reference clock phase is input phase

STEP 1: Convert Input(s) to Base Unit

Pll Output Clock Phase: 3 --> No Conversion Required

input reference clock phase: 1 --> No Conversion Required

input reference clock phase: 1 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

H(s) = ΔΦout(s)/ΔΦin(s) --> 3/1

Evaluating ... ...

H(s) = 3STEP 3: Convert Result to Output's Unit

3 --> No Conversion Required

FINAL ANSWER

3 <-- transfer function PLL

(Calculation completed in 00.000 seconds)
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Drain Voltage

drain_voltage
= sqrt(dynamic power/frequency*Capacitance)
Go

Gate to Channel Voltage

gate_to_channel_voltage = (Channel Charge/Gate Capacitance)+Threshold voltage
Go

Threshold Voltage

threshold_voltage = Gate to Channel Voltage-(Channel Charge/Gate Capacitance)
Go

Gate Capacitance

channel_charge = Gate Capacitance*(Gate to Channel Voltage-Threshold voltage)
Go

Channel Charge

channel_charge = Gate Capacitance*(Gate to Channel Voltage-Threshold voltage)
Go

Capacitor dynamic power

dynamic_power = Drain Voltage^2*frequency*Capacitance
Go

Potential gate to Collector

potential_gate_to_collector = (Potential Gate to Source+Potential Gate to Drain)/2
Go

Potential Gate to Drain

potential_gate_to_drain = 2*potential gate to collector-Potential Gate to Source
Go

Static Current

static_current = Static power/Drain Voltage
Go

Static Power Dissipation

static_power = static current*Drain Voltage
Go

transfer_function_pll = Pll Output Clock Phase/input reference clock phase

H(s) = ΔΦout(s)/ΔΦin(s)

H(s) = ΔΦout(s)/ΔΦin(s)

A Transfer Function is the ratio of the output of a system to the input of a system, in the Laplace domain considering its initial conditions and equilibrium point to be zero.

Transfer Function of PLL calculator uses *transfer_function_pll = Pll Output Clock Phase/input reference clock phase* to calculate the transfer function PLL, The Transfer Function of PLL formula is defined as the output phase clock to the ratio of input reference clock. transfer function PLL and is denoted by **H(s)** symbol.

How to calculate Transfer Function of PLL using this online calculator? To use this online calculator for Transfer Function of PLL, enter Pll Output Clock Phase **(ΔΦout(s))** and input reference clock phase **(ΔΦin(s))** and hit the calculate button. Here is how the Transfer Function of PLL calculation can be explained with given input values -> **3 = 3/1**.

What is Transfer Function of PLL?

The Transfer Function of PLL formula is defined as the output phase clock to the ratio of input reference clock and is represented as **H(s) = ΔΦout(s)/ΔΦin(s)** or *transfer_function_pll = Pll Output Clock Phase/input reference clock phase*. Pll Output Clock Phase is output clock phase and input reference clock phase is input phase.

How to calculate Transfer Function of PLL?

The Transfer Function of PLL formula is defined as the output phase clock to the ratio of input reference clock is calculated using *transfer_function_pll = Pll Output Clock Phase/input reference clock phase*. To calculate Transfer Function of PLL, you need Pll Output Clock Phase **(ΔΦout(s))** and input reference clock phase **(ΔΦin(s))**. With our tool, you need to enter the respective value for Pll Output Clock Phase and input reference clock phase 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 transfer function PLL?

In this formula, transfer function PLL uses Pll Output Clock Phase and input reference clock phase. We can use 10 other way(s) to calculate the same, which is/are as follows -

- dynamic_power = Drain Voltage^2*frequency*Capacitance
- drain_voltage = sqrt(dynamic power/frequency*Capacitance)
- static_power = static current*Drain Voltage
- static_current = Static power/Drain Voltage
- channel_charge = Gate Capacitance*(Gate to Channel Voltage-Threshold voltage)
- channel_charge = Gate Capacitance*(Gate to Channel Voltage-Threshold voltage)
- gate_to_channel_voltage = (Channel Charge/Gate Capacitance)+Threshold voltage
- threshold_voltage = Gate to Channel Voltage-(Channel Charge/Gate Capacitance)
- potential_gate_to_collector = (Potential Gate to Source+Potential Gate to Drain)/2
- potential_gate_to_drain = 2*potential gate to collector-Potential Gate to Source

Where is the Transfer Function of PLL calculator used?

Among many, Transfer Function of PLL calculator is widely used in real life applications like {FormulaUses}. Here are few more real life examples -

{FormulaExamplesList}

{FormulaExamplesList}