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Calculators Created by Nikita Suryawanshi
Nikita Suryawanshi
Vellore Institute of Technology
(VIT)
,
Vellore
137
Formulas Created
38
Formulas Verified
54
Across Categories
List of Calculators by Nikita Suryawanshi
Following is a combined list of all the calculators that have been created and verified by Nikita Suryawanshi. Nikita Suryawanshi has created 137 and verified 38 calculators across 54 different categories till date.
2 Wattmeter Method
(3)
Created
Power in Wattmeter 1
Go
Created
Power in Wattmeter 2
Go
Created
Total Power in terms of phi angle
Go
3 Wattmeter Method
(1)
Created
Total Power for a Three Phase Wattmeter
Go
AC Potentiometer
(2)
Created
Magnitude of Voltage
Go
Created
Phase Angle
Go
Amplifiers
(5)
Created
Magnitude Response |T(jω)| of STC network for high-pass filter
Go
Created
Phase Response ∠T(jω) of STC networks for low-pass filter
Go
Created
Transfer Function (for physical frequencies) of STC networks for high pass filter
Go
Created
Transfer Function (for physical frequencies) of STC networks for low pass filter
Go
Created
Transfer function of STC networks for low-pass filters
Go
17 More Amplifiers Calculators
Go
Anderson's Bridge
(3)
Created
Value of I
_{c}
Go
Created
Value of Unknown Inductance of Anderson's Bridge
Go
Created
Value of Unknown Resistance of Anderson's Bridge
Go
Balanced Condition
(1)
Created
Value of Unknown Resistance
Go
Binary Weighted
(1)
Created
V
_{o}
of Binary Weighted Type DAC
Go
Capacitance Potential Divider
(2)
Created
V
_{s}
for C
_{2}
>> C
_{v}
Go
Created
Value of V
_{s}
Go
Colpitts Oscillator
(2)
Created
Effective Capacitance
Go
Created
Frequency of Oscillation
Go
Common Mode Rejection Ratio
(4)
Created
3-dB Frequency of STC Networks for high-pass frequency
Go
Created
3-dB Frequency of STC Networks for low-pass frequency
Go
Created
Magnitude Response |T(jω)| of STC network for low-pass filter
Go
Created
Transfer function of STC networks for high-pass filters
Go
17 More Common Mode Rejection Ratio Calculators
Go
Controlled rectifiers
(12)
Verified
Average output voltage of a single phase full converter with highly inductive load
Go
Verified
Average output voltage of single phase semi-converter with highly inductive load
Go
Verified
Average output voltage of single phase thyristor converter with resistive load
Go
Verified
Maximum output voltage of a single phase full converter with highly inductive load
Go
Verified
Maximum output voltage of a single phase semi-converter with highly inductive load
Go
Verified
Maximum output voltage of single phase thyristor converter with resistive load
Go
Verified
Normalized output voltage of a single phase semi-converter with highly inductive load
Go
Verified
Normalized output voltage of single phase full converter with highly inductive load
Go
Verified
Normalized voltage of a single phase thyristor converter with resistive load
Go
Verified
RMS output voltage of a single phase full converter with highly inductive load
Go
Verified
RMS output voltage of single phase semi-converter with highly inductive load
Go
Verified
RMS output voltage of single phase thyristor converter with resistive load
Go
Co-ordinate Type
(2)
Created
Value of Effective Resistance
Go
Created
Voltage Output of Volt Ratio Box
Go
De Sauty Bridge
(3)
Created
Value of Dissipation Factor
Go
Created
Value of Unknown Capacitance of De Sauty Bridge
Go
Created
Value of Unknown Capacitance with Dielectric Losses
Go
Dual Slope/Integrating Type
(3)
Created
Conversion Time
Go
Created
Number of Pulses
Go
Created
Value of V
_{a}
Go
Electrodynamometer Type Instrument
(6)
Created
Deflecting Torque of ED Instrument (AC Operation)
Go
Created
Deflecting Torque of ED Instrument (DC Operation)
Go
Created
Deflecting Torque of ED Instrument (Voltmeter)
Go
Created
Deflection Angle of ED Instrument (AC Operation)
Go
Created
Deflection Angle of ED Instrument (DC Operation)
Go
Created
Deflection Angle of ED Instrument (Voltmeter)
Go
Electrodynamometer Type Wattmeter
(2)
Created
Angle of Deflection of ED Wattmeter
Go
Created
Deflecting Torque of ED Wattmeter
Go
Energy Meter
(2)
Created
Braking Torque in an Energy Meter
Go
Created
Driving Torque in an Energy Meter
Go
Frequency Measurement
(1)
Created
Unknown Frequency using CRO
Go
Harley Oscillator
(2)
Created
Effective Inductance
Go
Created
Frequency of Oscillation of Hartley Oscillator
Go
Hartley Oscillator using Op-Amp
(2)
Created
Frequency of Oscillation of Op-Amp
Go
Created
Voltage Gain of Op-Amp
Go
Hays' Bridge
(3)
Created
Value of Quality Factor of Hays' Bridge
Go
Created
Value of Unknown Inductance
Go
Created
Value of Unknown Resistance of Hays' bridge
Go
Inverted R-2R
(1)
Created
V
_{o}
of Inverted R-2R Linear Type DAC
Go
Kelvin's Bridge
(3)
Created
Value of R
_{ab}
Go
Created
Value of R
_{cb}
Go
Created
Value of Unknown Resistance of Kelvin's Bridge
Go
Linear Ramp Type
(4)
Created
Maximum Number of Clock Pulses
Go
Created
Total Conversion Time of Linear Ramp Type
Go
Created
Value of T
_{1}
Go
Created
Value of T
_{2}
Go
Magnetic Measurements
(1)
Created
Average Current through Galvanometer
Go
Maxwell's Bridge
(3)
Created
Vale of Unknown Inductance
Go
Created
Value of Quality Factor of Maxwell's Bridge
Go
Created
Value of Unknown Resistance of Mawell's Bridge
Go
Modified Wein Bridge Oscillator
(2)
Created
Voltage Gain for large Amplitude
Go
Created
Voltage Gain for small Amplitude
Go
Moving Iron
(6)
Created
Angular Deflection of Moving Iron
Go
Created
Deflecting Torque of Moving Iron
Go
Created
m of Moving Iron Ammeter
Go
Created
m of Moving Iron Voltmeter
Go
Created
Time Constant of Moving Iron Ammeter
Go
Created
Voltage of Moving Iron Voltmeter
Go
Multirange Potentiometer
(3)
Created
Value of I'
_{m}
Go
Created
Value of I
_{m}
of Multirange Potentiometer
Go
Created
Value of R
_{2}
of Multirange Potentiometer
Go
Operational Amplifiers
(4)
Created
Common-mode rejection ratio of the difference amplifiers
Go
Created
Output voltage V
_{01}
of a difference amplifier
Go
Created
Output voltage V
_{02}
of a difference amplifier
Go
Created
Output voltage V
_{o}
of a difference amplifier
Go
13 More Operational Amplifiers Calculators
Go
Permanent Magnet Moving Coil
(9)
Created
Angle of deflection of PMMC
Go
Created
Deflecting torque of PMMC instrument
Go
Created
m of PMMC based Ammeter
Go
Created
m of PMMC based voltmeter
Go
Created
n
^{th}
resistance in multi-range Ammeter
Go
Created
n
^{th}
resistance in multi-range voltmeter
Go
Created
R
_{s}
of PMMC based voltmeter
Go
Created
R
_{sh}
of PMMC based Ammeter
Go
Created
Resistance at switch position 'n' for multi range Ammeter
Go
Power in Circuits
(3)
Created
AC Power
Go
Created
DC Power (in Current Terms)
Go
Created
DC Power (in Voltage Terms)
Go
Q Meter
(6)
Created
Measured Value of Charge
Go
Created
True Value of Charge
Go
Created
Value of C
_{d}
Go
Created
Value of C
_{T}
Go
Created
Value of Inductance
Go
Created
Value of Resistance
Go
R-2R Linear
(1)
Created
V
_{o}
of R-2R Linear Type DAC
Go
Rectifier Type
(11)
Created
AC Meter Sensitivity for Full Wave Rectifier
Go
Created
AC Meter Sensitivity for Half Wave Rectifier
Go
Created
AC Voltage
Go
Created
DC Meter Sensitivity
Go
Created
R
_{s}
for AC Operation (Full Wave)
Go
Created
R
_{s}
for AC Operation (Half Wave)
Go
Created
R
_{s}
for DC Operation (Full Wave)
Go
Created
R
_{s}
for DC Operation (Half Wave)
Go
Created
V
_{av}
of Full Scale Rectifier
Go
Created
V
_{av}
of Half Wave Rectifier
Go
Created
V
_{rms}
value
Go
Ryall Crest Voltmeter
(1)
Created
Value of Voltage through Meter
Go
Schering's Bridge
(3)
Created
Value of Quality Factor of Schering's Bridge
Go
Created
Value of Unknown Capacitance of Schering's Bridge
Go
Created
Value of Unknown Resistance of Schering's Bridge
Go
Series resonant inverter
(2)
Verified
Maximum output frequency for bidirectional switches
Go
Verified
Maximum output frequency for unidirectional switches
Go
2 More Series resonant inverter Calculators
Go
Series Type
(3)
Created
Value of R
_{1}
Go
Created
Value of R
_{2}
of series type ohmmeter
Go
Created
Value of R
_{h}
for Series Type Ohmmeter
Go
Shunt Type
(3)
Created
Value of I
_{m}
Go
Created
Value of R
_{h}
for Shunt Type Ohmmeter
Go
Created
Value of S
Go
Single Phase Dual Converters
(3)
Verified
DC output voltage for first converter
Go
Verified
DC output voltage of second controller
Go
Verified
Maximum circulating current
Go
Single Phase Full Converter
(6)
Verified
Fundamental component of source current for constant load current
Go
Verified
Real power for constant load current
Go
Verified
Real power for constant load current in terms of V
_{m}
Go
Verified
RMS magnitude of fundamental source current for constant load current
Go
Verified
Total power factor for constant load current for Single Phase Full Converter
Go
Verified
Total power factor for continuous load current
Go
3 More Single Phase Full Converter Calculators
Go
Single phase inverters
(3)
Verified
RMS output voltage for single phase inverter
Go
Verified
RMS value of fundamental component of voltage for full bridge
Go
Verified
RMS value of fundamental component of voltage for half bridge
Go
Single Phase Semi-converter
(6)
Verified
Displacement power factor for constant load current
Go
Verified
Displacement power factor for continuous load current
Go
Verified
Distortion power factor for constant load current
Go
Verified
Peak magnitude of source current for constant load current
Go
Verified
RMS value of source current for constant load current
Go
Verified
Total power factor for constant load current for Single Phase Semi-converter
Go
Thermocouple Wattmeter
(2)
Created
EMF across Galvanometer
Go
Created
Instantaneous Deflecting Torque
Go
Three phase half wave converters
(2)
Verified
Maximum output voltage for continuous load current
Go
Verified
RMS output voltage for continuous load current
Go
3 More Three phase half wave converters Calculators
Go
Three phase semi-converter
(4)
Verified
Average output current
Go
Verified
Average output voltage for three phase semi-converter
Go
Verified
Normalized average output voltage
Go
Verified
RMS output voltage for three phase semi-converter
Go
1 More Three phase semi-converter Calculators
Go
Transfer Instrument Type
(2)
Created
Reactance of Coil
Go
Created
Resistance of Coil
Go
Transformer Ratio Method
(2)
Created
Turns Ratio
Go
Created
Voltage in Secondary Coil
Go
Triangle to Sine
(3)
Created
V
_{out}
with D
_{1}
Go
Created
V
_{out}
with D
_{2}
Go
Created
V
_{out}
without D
_{1}
and D
_{2}
Go
Triangle to Square
(4)
Created
Charging/Discharging Time
Go
Created
Lower Trigger Point Voltage
Go
Created
Time Period of Wave
Go
Created
Upper Trigger Point Voltage
Go
Unbalanced Condition
(2)
Created
Value of Thevenin Resistance
Go
Created
Value of Total Current
Go
Wein Bridge Oscillator
(2)
Created
Frequency of Oscillation of Wein Bridge
Go
Created
Voltage Gain
Go
Wien's Bridge
(3)
Created
Value of f
Go
Created
Value of Resistance Ratio
Go
Created
Value of ω
Go
1 More Wien's Bridge Calculators
Go
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