Rise Time given Delay Time Solution

STEP 0: Pre-Calculation Summary
Formula Used
Rise Time = 1.5*Delay Time
tr = 1.5*td
This formula uses 2 Variables
Variables Used
Rise Time - (Measured in Second) - Rise Time is the time required to reach at final value by a under damped time response signal during its first cycle of oscillation.
Delay Time - (Measured in Second) - Delay Time is the time required to reach at 50% of its final value by a time response signal during its first cycle of oscillation.
STEP 1: Convert Input(s) to Base Unit
Delay Time: 0.04 Second --> 0.04 Second No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
tr = 1.5*td --> 1.5*0.04
Evaluating ... ...
tr = 0.06
STEP 3: Convert Result to Output's Unit
0.06 Second --> No Conversion Required
FINAL ANSWER
0.06 Second <-- Rise Time
(Calculation completed in 00.004 seconds)

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Created by Akshada Kulkarni
National Institute of Information Technology (NIIT), Neemrana
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Rise Time given Damped Natural Frequency
​ LaTeX ​ Go Rise Time = (pi-Phase Shift)/Damped Natural Frequency
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Bandwidth Frequency given Damping Ratio
​ LaTeX ​ Go Bandwidth Frequency = Natural Frequency of Oscillation*(sqrt(1-(2*Damping Ratio^2))+sqrt(Damping Ratio^4-(4*Damping Ratio^2)+2))
First Peak Undershoot
​ LaTeX ​ Go Peak Undershoot = e^(-(2*Damping Ratio*pi)/(sqrt(1-Damping Ratio^2)))
First Peak Overshoot
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Delay Time
​ LaTeX ​ Go Delay Time = (1+(0.7*Damping Ratio))/Natural Frequency of Oscillation

Rise Time given Delay Time Formula

​LaTeX ​Go
Rise Time = 1.5*Delay Time
tr = 1.5*td

What is rise time?

Rise time is the time taken for a signal to cross a specified lower voltage threshold followed by a specified upper voltage threshold. This is an important parameter in both digital and analog systems. In digital systems it describes how long a signal spends in the intermediate state between two valid logic levels. In analog systems it specifies the time taken for the output to rise from one specified level to another when the input is driven by an ideal edge with zero rise time. This indicates how well the system preserves a fast transition in the input signal.

What other ways are there to calculate rise time?

There are many other ways to calculate rise time other than the standard method. We can calculate rise time if delay time is given to us by the expression:
Tr (rise time) = 1.5 times Td( delay time ).

How to Calculate Rise Time given Delay Time?

Rise Time given Delay Time calculator uses Rise Time = 1.5*Delay Time to calculate the Rise Time, Rise Time given Delay Time is the time required for the response to rise from 0% to 100% of its final value. This is applicable for the under-damped systems. Rise Time is denoted by tr symbol.

How to calculate Rise Time given Delay Time using this online calculator? To use this online calculator for Rise Time given Delay Time, enter Delay Time (td) and hit the calculate button. Here is how the Rise Time given Delay Time calculation can be explained with given input values -> 0.06 = 1.5*0.04.

FAQ

What is Rise Time given Delay Time?
Rise Time given Delay Time is the time required for the response to rise from 0% to 100% of its final value. This is applicable for the under-damped systems and is represented as tr = 1.5*td or Rise Time = 1.5*Delay Time. Delay Time is the time required to reach at 50% of its final value by a time response signal during its first cycle of oscillation.
How to calculate Rise Time given Delay Time?
Rise Time given Delay Time is the time required for the response to rise from 0% to 100% of its final value. This is applicable for the under-damped systems is calculated using Rise Time = 1.5*Delay Time. To calculate Rise Time given Delay Time, you need Delay Time (td). With our tool, you need to enter the respective value for Delay Time 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 Rise Time?
In this formula, Rise Time uses Delay Time. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Rise Time = (pi-Phase Shift)/Damped Natural Frequency
  • Rise Time = (pi-(Phase Shift*pi/180))/(Natural Frequency of Oscillation*sqrt(1-Damping Ratio^2))
  • Rise Time = (pi-Phase Shift)/Damped Natural Frequency
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