XOR Phase Detector Phase with reference to Detector Current Calculator

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✖XOR Phase Detector Current is defined as an electric current(which is a stream of charged particles, such as electrons or ions)moving through an electrical conductor or space.ⓘ XOR Phase Detector Current [i_pd]			+10% -10%
✖XOR Phase Detector Average Voltage is the averaging of all the instantaneous values along the time axis with time being one full period, (T).ⓘ XOR Phase Detector Average Voltage [K_pd]			+10% -10%

✖XOR Phase Detector Phase where phase detector is a frequency mixer, an analog multiplier that generates a voltage signal which represents the difference in phase between two signal inputs.ⓘ XOR Phase Detector Phase with reference to Detector Current [Φ_err]

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Formula

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XOR Phase Detector Phase with reference to Detector Current

Formula

`"Φ"_{"err"} = "i"_{"pd"}/"K"_{"pd"}`

Example

`"9.299961°"="499.93mA"/"3.08V"`

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XOR Phase Detector Phase with reference to Detector Current Solution

STEP 0: Pre-Calculation Summary

Formula Used

XOR Phase Detector Phase = XOR Phase Detector Current/XOR Phase Detector Average Voltage
Φ_err = i_pd/K_pd
This formula uses 3 Variables

Variables Used

XOR Phase Detector Phase - (Measured in Radian) - XOR Phase Detector Phase where phase detector is a frequency mixer, an analog multiplier that generates a voltage signal which represents the difference in phase between two signal inputs.
XOR Phase Detector Current - (Measured in Ampere) - XOR Phase Detector Current is defined as an electric current(which is a stream of charged particles, such as electrons or ions)moving through an electrical conductor or space.
XOR Phase Detector Average Voltage - (Measured in Volt) - XOR Phase Detector Average Voltage is the averaging of all the instantaneous values along the time axis with time being one full period, (T).

STEP 1: Convert Input(s) to Base Unit

XOR Phase Detector Current: 499.93 Milliampere --> 0.49993 Ampere (Check conversion here)
XOR Phase Detector Average Voltage: 3.08 Volt --> 3.08 Volt No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

Φ_err = i_pd/K_pd --> 0.49993/3.08

Evaluating ... ...

Φ_err = 0.162314935064935

STEP 3: Convert Result to Output's Unit

0.162314935064935 Radian -->9.29996073116254 Degree (Check conversion here)

FINAL ANSWER

9.29996073116254 ≈ 9.299961 Degree <-- XOR Phase Detector Phase

(Calculation completed in 00.020 seconds)

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< 17 CMOS Time Characteristics Calculators

XOR Voltage NAND Gate

Go XOR Voltage Nand Gate = (Capacitance 2*Base Collector Voltage)/(Capacitance 1+Capacitance 2)

XOR Phase Detector Phase with reference to Detector Current

Go XOR Phase Detector Phase = XOR Phase Detector Current/XOR Phase Detector Average Voltage

Phase Detector Average Voltage

Go XOR Phase Detector Average Voltage = XOR Phase Detector Current/XOR Phase Detector Phase

XOR Phase Detector Voltage

Go XOR Phase Detector Voltage = XOR Phase Detector Phase*XOR Phase Detector Average Voltage

XOR Phase Detector Current

Go XOR Phase Detector Current = XOR Phase Detector Phase*XOR Phase Detector Average Voltage

XOR Phase Detector Phase

Go XOR Phase Detector Phase = XOR Phase Detector Voltage/XOR Phase Detector Average Voltage

Aperture Time for Falling Input

Go Aperture Time for Falling Input = Setup Time at Low Logic+Hold Time at High Logic

Setup Time at Low Logic

Go Setup Time at Low Logic = Aperture Time for Falling Input-Hold Time at High Logic

Hold Time at High logic

Go Hold Time at High Logic = Aperture Time for Falling Input-Setup Time at Low Logic

Aperture Time for Rising Input

Go Aperture Time for Rising Input = Setup Time at High Logic+Hold Time at Low Logic

Setup Time at High Logic

Go Setup Time at High Logic = Aperture Time for Rising Input-Hold Time at Low Logic

Hold Time at Low logic

Go Hold Time at Low Logic = Aperture Time for Rising Input-Setup Time at High Logic

Small Signal Offset Voltage

Go Small Signal Offset Voltage = Initial Node Voltage-Metastable Voltage

Initial Voltage of Node A

Go Initial Node Voltage = Metastable Voltage+Small Signal Offset Voltage

Metastable Voltage

Go Metastable Voltage = Initial Node Voltage-Small Signal Offset Voltage

Probability of Synchronizer Failure

Go Probability of Synchronizer Failure = 1/Acceptable MTBF

Acceptable MTBF

Go Acceptable MTBF = 1/Probability of Synchronizer Failure

XOR Phase Detector Phase with reference to Detector Current Formula

XOR Phase Detector Phase = XOR Phase Detector Current/XOR Phase Detector Average Voltage
Φ_err = i_pd/K_pd

What is XOR Gate?

XOR gate (sometimes EOR, or EXOR and pronounced as Exclusive OR) is a digital logic gate that gives a true (1 or HIGH) output when the number of true inputs is odd. An XOR gate implements an exclusive or; that is, a true output results if one, and only one, of the inputs to the gate is true.

How to Calculate XOR Phase Detector Phase with reference to Detector Current?

XOR Phase Detector Phase with reference to Detector Current calculator uses XOR Phase Detector Phase = XOR Phase Detector Current/XOR Phase Detector Average Voltage to calculate the XOR Phase Detector Phase, XOR Phase Detector Phase with reference to Detector Current can be described by a transfer function that relates the input phase difference to the output current. This transfer function determines how the phase detector responds to different phase differences and generates the corresponding output current. XOR Phase Detector Phase is denoted by Φ_err symbol.

How to calculate XOR Phase Detector Phase with reference to Detector Current using this online calculator? To use this online calculator for XOR Phase Detector Phase with reference to Detector Current, enter XOR Phase Detector Current (i_pd) & XOR Phase Detector Average Voltage (K_pd) and hit the calculate button. Here is how the XOR Phase Detector Phase with reference to Detector Current calculation can be explained with given input values -> 532.8485 = 0.49993/3.08.

FAQ

What is XOR Phase Detector Phase with reference to Detector Current?

XOR Phase Detector Phase with reference to Detector Current can be described by a transfer function that relates the input phase difference to the output current. This transfer function determines how the phase detector responds to different phase differences and generates the corresponding output current and is represented as Φ_err = i_pd/K_pd or XOR Phase Detector Phase = XOR Phase Detector Current/XOR Phase Detector Average Voltage. XOR Phase Detector Current is defined as an electric current(which is a stream of charged particles, such as electrons or ions)moving through an electrical conductor or space & XOR Phase Detector Average Voltage is the averaging of all the instantaneous values along the time axis with time being one full period, (T).

How to calculate XOR Phase Detector Phase with reference to Detector Current?

XOR Phase Detector Phase with reference to Detector Current can be described by a transfer function that relates the input phase difference to the output current. This transfer function determines how the phase detector responds to different phase differences and generates the corresponding output current is calculated using XOR Phase Detector Phase = XOR Phase Detector Current/XOR Phase Detector Average Voltage. To calculate XOR Phase Detector Phase with reference to Detector Current, you need XOR Phase Detector Current (i_pd) & XOR Phase Detector Average Voltage (K_pd). With our tool, you need to enter the respective value for XOR Phase Detector Current & XOR Phase Detector Average Voltage 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 XOR Phase Detector Phase?

In this formula, XOR Phase Detector Phase uses XOR Phase Detector Current & XOR Phase Detector Average Voltage. We can use 1 other way(s) to calculate the same, which is/are as follows -

XOR Phase Detector Phase = XOR Phase Detector Voltage/XOR Phase Detector Average Voltage

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