Resistance of Charging Circuit from Average Power per Spark Solution

STEP 0: Pre-Calculation Summary
Formula Used
Resistance of the Charging Circuit Avg Pow = (Voltage of Power Supply Avg Pow^2*Time Constant Avg Pow)/(Average Power*Time for Charging Capacitor to Breakdown Voltage)*(1/2-exp(-Time for Charging Capacitor to Breakdown Voltage/Time Constant Avg Pow)+0.5*exp(-2*Time for Charging Capacitor to Breakdown Voltage/Time Constant Avg Pow))
Rav = (Vav^2*𝜏av)/(Pavg*τp)*(1/2-exp(-τp/𝜏av)+0.5*exp(-2*τp/𝜏av))
This formula uses 1 Functions, 5 Variables
Functions Used
exp - n an exponential function, the value of the function changes by a constant factor for every unit change in the independent variable., exp(Number)
Variables Used
Resistance of the Charging Circuit Avg Pow - (Measured in Ohm) - Resistance of the charging circuit avg pow is the resistance of the charging circuit.
Voltage of Power Supply Avg Pow - (Measured in Volt) - Voltage of power supply Avg pow, is the voltage required to charge a given device within given time.
Time Constant Avg Pow - (Measured in Second) - Time Constant avg pow is the response represents the elapsed time required for the system response to decay to zero if the system had continued to decay at the initial rate.
Average Power - (Measured in Watt) - Average power is defined as the ratio of total work done by the body to the total time taken by the body.
Time for Charging Capacitor to Breakdown Voltage - (Measured in Second) - Time for charging capacitor to breakdown voltage is denoted by τ.
STEP 1: Convert Input(s) to Base Unit
Voltage of Power Supply Avg Pow: 10.03 Volt --> 10.03 Volt No Conversion Required
Time Constant Avg Pow: 100.1 Second --> 100.1 Second No Conversion Required
Average Power: 15.7 Joule per Second --> 15.7 Watt (Check conversion ​here)
Time for Charging Capacitor to Breakdown Voltage: 6.001 Second --> 6.001 Second No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Rav = (Vav^2*𝜏av)/(Pavgp)*(1/2-exp(-τp/𝜏av)+0.5*exp(-2*τp/𝜏av)) --> (10.03^2*100.1)/(15.7*6.001)*(1/2-exp(-6.001/100.1)+0.5*exp(-2*6.001/100.1))
Evaluating ... ...
Rav = 0.180948863181561
STEP 3: Convert Result to Output's Unit
0.180948863181561 Ohm --> No Conversion Required
FINAL ANSWER
0.180948863181561 0.180949 Ohm <-- Resistance of the Charging Circuit Avg Pow
(Calculation completed in 00.020 seconds)

Credits

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Created by Rajat Vishwakarma
University Institute of Technology RGPV (UIT - RGPV), Bhopal
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Verified by Anshika Arya
National Institute Of Technology (NIT), Hamirpur
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Average Power Delivered per Spark Calculators

Voltage of Power Supply from Average Power per Spark
​ LaTeX ​ Go Voltage of Power Supply Avg Pow = sqrt((Average Power*Resistance of the Charging Circuit Avg Pow*Time for Charging Capacitor to Breakdown Voltage)/(Time Constant Avg Pow*(1/2-exp(-Time for Charging Capacitor to Breakdown Voltage/Time Constant Avg Pow)+0.5*exp(-2*Time for Charging Capacitor to Breakdown Voltage/Time Constant Avg Pow))))
Resistance of Charging Circuit from Average Power per Spark
​ LaTeX ​ Go Resistance of the Charging Circuit Avg Pow = (Voltage of Power Supply Avg Pow^2*Time Constant Avg Pow)/(Average Power*Time for Charging Capacitor to Breakdown Voltage)*(1/2-exp(-Time for Charging Capacitor to Breakdown Voltage/Time Constant Avg Pow)+0.5*exp(-2*Time for Charging Capacitor to Breakdown Voltage/Time Constant Avg Pow))
Average Energy Delivered per Spark
​ LaTeX ​ Go Average Power = (Voltage of Power Supply Avg Pow^2*Time Constant Avg Pow)/(Resistance of the Charging Circuit Avg Pow*Time for Charging Capacitor to Breakdown Voltage)*(1/2-exp(-Time for Charging Capacitor to Breakdown Voltage/Time Constant Avg Pow)+0.5*exp(-2*Time for Charging Capacitor to Breakdown Voltage/Time Constant Avg Pow))

Resistance of Charging Circuit from Average Power per Spark Formula

​LaTeX ​Go
Resistance of the Charging Circuit Avg Pow = (Voltage of Power Supply Avg Pow^2*Time Constant Avg Pow)/(Average Power*Time for Charging Capacitor to Breakdown Voltage)*(1/2-exp(-Time for Charging Capacitor to Breakdown Voltage/Time Constant Avg Pow)+0.5*exp(-2*Time for Charging Capacitor to Breakdown Voltage/Time Constant Avg Pow))
Rav = (Vav^2*𝜏av)/(Pavg*τp)*(1/2-exp(-τp/𝜏av)+0.5*exp(-2*τp/𝜏av))

How the spark is produced in Electric Discharge Machining ?

A typical circuit used for supplying the power to an EDM machine is named as the relaxation circuit. The circuit consists of a DC power source, which charges the capacitor ‘C’ across a resistance ‘Rc’. Initially when the capacitor is in the uncharged condition, when the power supply is on with a voltage of Vo, a heavy current, ic, will flow in the circuit as shown to charge the capacitor.The relaxation circuit as explained above was used in the early EDM machines. They are limited to the low material removal rates for fine finish, which limits its application. This can be explained from the fact that the time spent on charging the capacitor is quite large during which time, no machining can actually take place. Thus the material removal rates are low.

How to Calculate Resistance of Charging Circuit from Average Power per Spark?

Resistance of Charging Circuit from Average Power per Spark calculator uses Resistance of the Charging Circuit Avg Pow = (Voltage of Power Supply Avg Pow^2*Time Constant Avg Pow)/(Average Power*Time for Charging Capacitor to Breakdown Voltage)*(1/2-exp(-Time for Charging Capacitor to Breakdown Voltage/Time Constant Avg Pow)+0.5*exp(-2*Time for Charging Capacitor to Breakdown Voltage/Time Constant Avg Pow)) to calculate the Resistance of the Charging Circuit Avg Pow, The Resistance of charging circuit from average power per spark formula is defined as the resistance offered by the charging circuit used to charge capacitor of EDM spark circuit. Resistance of the Charging Circuit Avg Pow is denoted by Rav symbol.

How to calculate Resistance of Charging Circuit from Average Power per Spark using this online calculator? To use this online calculator for Resistance of Charging Circuit from Average Power per Spark, enter Voltage of Power Supply Avg Pow (Vav), Time Constant Avg Pow (𝜏av), Average Power (Pavg) & Time for Charging Capacitor to Breakdown Voltage p) and hit the calculate button. Here is how the Resistance of Charging Circuit from Average Power per Spark calculation can be explained with given input values -> 0.183483 = (10.03^2*100.1)/(15.7*6.001)*(1/2-exp(-6.001/100.1)+0.5*exp(-2*6.001/100.1)).

FAQ

What is Resistance of Charging Circuit from Average Power per Spark?
The Resistance of charging circuit from average power per spark formula is defined as the resistance offered by the charging circuit used to charge capacitor of EDM spark circuit and is represented as Rav = (Vav^2*𝜏av)/(Pavgp)*(1/2-exp(-τp/𝜏av)+0.5*exp(-2*τp/𝜏av)) or Resistance of the Charging Circuit Avg Pow = (Voltage of Power Supply Avg Pow^2*Time Constant Avg Pow)/(Average Power*Time for Charging Capacitor to Breakdown Voltage)*(1/2-exp(-Time for Charging Capacitor to Breakdown Voltage/Time Constant Avg Pow)+0.5*exp(-2*Time for Charging Capacitor to Breakdown Voltage/Time Constant Avg Pow)). Voltage of power supply Avg pow, is the voltage required to charge a given device within given time, Time Constant avg pow is the response represents the elapsed time required for the system response to decay to zero if the system had continued to decay at the initial rate, Average power is defined as the ratio of total work done by the body to the total time taken by the body & Time for charging capacitor to breakdown voltage is denoted by τ.
How to calculate Resistance of Charging Circuit from Average Power per Spark?
The Resistance of charging circuit from average power per spark formula is defined as the resistance offered by the charging circuit used to charge capacitor of EDM spark circuit is calculated using Resistance of the Charging Circuit Avg Pow = (Voltage of Power Supply Avg Pow^2*Time Constant Avg Pow)/(Average Power*Time for Charging Capacitor to Breakdown Voltage)*(1/2-exp(-Time for Charging Capacitor to Breakdown Voltage/Time Constant Avg Pow)+0.5*exp(-2*Time for Charging Capacitor to Breakdown Voltage/Time Constant Avg Pow)). To calculate Resistance of Charging Circuit from Average Power per Spark, you need Voltage of Power Supply Avg Pow (Vav), Time Constant Avg Pow (𝜏av), Average Power (Pavg) & Time for Charging Capacitor to Breakdown Voltage p). With our tool, you need to enter the respective value for Voltage of Power Supply Avg Pow, Time Constant Avg Pow, Average Power & Time for Charging Capacitor to Breakdown Voltage 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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